RReeffeerreenncceess

118

REFERENCES

Abou-Zeid, AZA. & Yousef, AESA. (1976). Purification of mitomycins produced by

Streptomyces caespitosus. J. Appl. Chem. Biotechnol 26, 454-458.

Ahmad, A., Mukherjee, P., Senapati, S., Mandal, D., Khan, MI., Kumar, R. & Sastry,

M. (2003c). Extracellular biosynthesis of silver nanoparticles using the fungus

Fusarium oxysporum. Coll. Surf. B 28, 313–318.

Ahmad, A., Senapati, S., Khan, M.I., Kumar, R., Ramani, R., Srinivas, V. & Sastry, M.

2003). Intracellular synthesis of gold nanoparticles by a novel alkalotolerant

actinomycete, Rhodococcus species. Nanotechnology 14, 824-828.

Ahmad, A., Senapati, S., Khan, M.I., Kumar, R. & Sastry, M. (2003a). Extracellular

biosynthesis of monodisperse gold nanoparticles by a novel extremophilic

actinomycete, Thermomonospora sp. Langmuir 19, 3550-3553.

Akhand, MAM., Al-Bari, MAA., Islam, MA. & Khondkar, P. (2010). Characterization

and Antimicrobial Activities of a Metabolite from a New Streptomyces sp. from

Bangladeshi Soil. J. Sci. Res 2 (1), 178-185.

Alam, MA., Machur, M.A. & Anwar, MN. (2004). Isolation, Purification,

Characterization of Cellulolytic enzymes produced by the isolate Streptomyces

omiyaensis. Pakistan Journal of Biological Sciences 7 (10), 1647-1653.

Ahmad, N., Sharma, S., Singh, V.N., Shamsi, S.F., Fatma, A. & Mehta, B.R. (2011).

Biosynthesis of silver nanoparticles from Desmodium trifolium: A novel

approach towards weed utilization. Biotech. Res. Int 1-8.

Alberto Ruiz-arribas., Jose, M. Fernandez-Abalos., Pilar sanchez., Ana Lila Gard. &

Ramon I. Santamaria. (1995). Overproduction, Purification and Biochemical

Characterization of a Xylanase (Xys1) from Streptomyces halstedii JM8.

Applied and Environmental Microbiology 2414–2419.

Alberto Ruiz-arribas., Jose, M. Fernandez-Abalos., Pilar sanchez., Ana Lila Garda. &

Ramon I. Santamaria. (1997). Analysis of xysA, a Gene from Streptomyces

halstedii JM8 that Encodes a 45-Kilodalton Modular Xylanase, Xys1. Applied

and Environmental Microbiology 2983–2988.

119

Amena, S., Vishalakshi, N., Prabhakar M, Dayanand A, Lingappa K (2010). Production,

purification and characterization of L-asparaginase from Streptomyces

gulbargensis. Brazil J Microbiol 41, 173-178.

Anandan, S., Grieser, F. & Ashokkumar, M. (2008). Sonochemical synthesis of Au-Ag

core-shell bimetallic nanoparticles. J Phys Chem C 112, 15102–15105.

Anderson, AS. & Wellington, EH, (2001). The taxonomy of Streptomyces and related

genera. Int. J. Syst Evol Microbiol 51, 797–814.

Andrea Lopes., Rosalie RR Coelho., Maria Nazareth L Meirelles., Marta Helena

Branquinha. & Alane Beatriz Vermelho. (1999). Extracellular Serine-

proteinases Isolated from Streptomyces alboniger: Partial Characterization and

Effect of Aprotinin on Cellular Structure, Mem Inst Oswaldo Cruz, Rio de

Janeiro, Vol. 94(6), 763-770.

Ankanna, S., Prasad, T.N.V.K.V., Elumalai, EK. & Savithramma, N. (2010).

Production of biogenic silver nanoparticles using Bosvellia ovalifoliolata stem

bark. Digest J. Nanomater. Biostructures 5, 369-372.

Antony-Babu, S., Stach, JEM. & Goodfellow, M. (2008). Genetic and phenotypic evidence for Streptomyces griseus ecovars isolated from a beach and dune sand

system. Antonie van Leeuwenhoek 94, 63–74.

Arica, MY., Kacar, Y. & Genc, O. (2001). Entrapment of white-rot fungus Trametes

versicolor in Ca-alginate beads: preparation and biosorption kinetic analysis for

cadmium removal from an aqueous solution. Bioresour Technol 80, 121-129.

Arya, V. (2010). Living system: Eco-Friendly nano factories. Digest. J. Nanomater.

Biostruct 5, 9-21.

Asolkar, RN., Schroder, D., Heckmann, R., Lang, S., Wagner-Dobler, I. & Laatsch, H.

(2004). Helquinoline, a new tetrahydroquinoline antibiotic from Janibacter

limosus Hel 1. J. Antibiot (Tokyo) 57, 17-23.

Augustine, S.K., Bhavsar, S.P. & Kapadnis, B.P. (2005). A non-polyene antifunga l

antibiotic from Streptomyces albidoflavus PU 23. J. Biosci 30(2), 201-211.

Bacelar-Nicolau, P. & Johnson, DB. (1999). Leaching of pyrite by acidophilic

heterotrophic iron-oxidizing bacteria in pure and mixed cultures. Appl. Environ Microbiol 65, 585–590.

120

Baldwin, G.S. (1993). Comparison of sequences of the 78 kDa gastrin-binding protein

and some enzymes involved in fatty acid oxidation. Comp. Biochem. Physiol

104B, 55-61.

Bansal, V et al., (2004). Biosynthesis of zirconia nanoparticles using the fungus

Fusarium oxysporum. Journal of Materials Chemistry 14, 3303-3305.

Barghoorn, ES. & Linder, DH. (1944). Marine fungi: Their taxonomy and biology.

Farlowia 1, 395-467.

Baron, JE., Peterson, RL. & Finegold, MS. (1994). Cultivation and isolation of viable

pathogens. In: Diagnostic microbiology (9 ed) 9, 79-96.

Belfaquih, N., Jaspers, C., Kurzatkowski, W. & Penninckx, M.J. (2002). Properties of

Streptomyces sp. endo-beta-xylanases in relation to their applicability in kraft

pulp bleaching. World J. Microb. Biot. 18(7), 699-705.

Benedict, R. G., Pridham, T. G., Lindenfelser, L. A., Hall, H. H. & Jackson, R. W.

(1955). Further studies in the evaluation of carbohydrate utilization tests as aids

in the differentiation of species of Streptomyces. Appl. Microbiol 3, 1-6.

Bennett, R. E., Brindle, S. A., Giuffre, N. A., Jackson, P. W., Kowald, J., Pansy, F. E., Perlman, D. & Trejo, W.H. (1962). Production of a novel cytotoxic agent, SQ 15,

859 by Streptomyces chrysomallus. Antimicrob. Agents Chemother 169–172.

Bentley, S.D., Chater, K.F., Cerdeno-Tarraga, A.M., Challis, G.L., Thomson, N.R.,

James, K.D., Harris, D.E., Quail, M.A., Kieser, H., Harper, D., Bateman, A.,

Brown, S., Chandra, G., Chen, C. W., Collins, M., Cronin, A., Fraser, A. Goble,

A., Hidalgo, J., Hornsby, T., Howarth, S., Huang, C.H., Kieser, T., Larke, L.

Murphy, L., Oliver, K., O’Neil, S., Rabbinowitsch, E., Rajandream, M.A.,

Rutherford, K., Rutter, S., Seeger, K., Saunders, D., Sharp, S., Squares, R.,

Squares, S., Taylor, K., Warren, T., Wietzorrek, A., Woodward, J., Barrell, B.G.,

Parkhill, J. & Hopwood, D. A. (2002). Complete genome sequence of the model

actinomycete Streptomyces coelicolor A3 (2). Nature 417(6885), 141-147.

Berdy, J. (1995). Are actinomycetes exhausted as a source of secondary metabolites?

Proceedings of the 9th International Symposium on the Biology of

Actinomycetes, (ISBA'95), Moscow, Russia, 13-34.

Berdy, J. (2005). Bioactive microbial metabolites. J. Antibiot (Tokyo) 58, 1-26.

Bergmann, W. & Feeney, RJ. (1951). Contributions to the study of marine products.

XXXIL. The nucleosides of sponges. Int. J. Org Chem 16(6), 981-987.

121

Bergmann, W. & Feeney, RJ. (1955). Contributions to the study of marine products.

XXXIX. The nucleosides of sponges. III. Spongothymidine and spongouridine.

J. Org. Chem 20 (11), 1501-1507.

Bernan, VS., Greensterin, M. & Maise, WM. (1997). Marine microorganisms as a

source of new natural products. Adv. Appl. Microbiol 43, 57-90.

Beveridge, TJ. & Murray, RGE. (1980). Site of metal deposition in the cell wall of

Bacillus subtilis. J. Bacteriol 141, 876–887.

Beveridge, TJ. et al., (2007). Metal–microbe interactions: contemporary approaches.

Advances in Microbial Physiology 38, 177–243.

Bhattacharya, D. & Gupta, R.K. (2005). Nanotechnology and Potential of

Microorganisms. Critical Reviews in Biotechnology 25, 199–204.

Bibb, M. (1996). 1995 Colworth Prize Lecture. The regulation of antibiotic production

in Streptomyces coelicolor A3(2). Microbiology 142, 1335-1344.

Billeci, T. M. & Stults, J. T. (1993). Anal Chem 65, in press. Biochemistry: Henzel et

al. blood using iodinated density gradient media. Methods in Enzymology 108,

88-102.

Bister, B., Bischoff, D., Strobele, M., Riedlinger, J., Reicke, A., Wolter, F., Bull, AT.,

Zahner, H., Fiedler, HP. & Sussmuth, RD. (2004). Abyssomicin C–a polycyclic

antibiotic from a marine Verrucosispora strain as an inhibitor of the p-

aminobenzoic acid/tetrahydrofolate biosynthesis pathway. Angew. Chem. Int.

Ed Engl 43, 2574-2576.

Blunt, JW, Copp, BR., Munro, MHG., Northcote, PT. & Prinsep, MR. (2003). Marine

natural products. Nat. Prod. Rep 20(1), 1-48.

Blunt, JW, Copp, BR., Munro, MHG., Northcote, PT. & Prinsep, MR. (2004). Marine

natural products. Nat. Prod. Rep 21(1): 1-49.

Blunt, JW., Copp, BR., Munro, MHG., Northcote, PT. & Prinsep, MR. (2005). Marine

natural products. Nat. Prod. Rep. 22(1), 15-61.

Blunt, JW., Copp BR., Munro MHG., Northcote, PT. & Prinsep, MR. (2006). Marine

natural products. Nat. Prod. Rep. 23(1), 26-78.

Borrel, M. N., Pereira, E., Fiallo, M. & Garnier-Suillerot, A. (1994). Mobile ionophores

are a novel class of P-glycoprotein inhibitors. The effects of ionophores on 49-

122

O-tetrahydropyranyl-adriamycin incorporation in K562 drug-resistant cells.

Eur. J. Biochem 223, 25–133.

Boyum, A. (1984). Separation of lymphocytes, granulocytes and monocytes from

human Chait, BT., Wang, R., Beavis, RC. & Kent, SBH. (1993). Protein ladder

sequencing. Science 262, 89-92.

Brenner, D.J., Staley, J.T. & Krieg, N.R. (2001). Classification of prokaryotic

organisms and the concept of bacterial speciation. In Bergey's manual of

systematic bacteriology, Boone, D.R., Castenholz, R.W., Garrity, G.M., 2nd ed.

Vol. 1, 27–31.

Broadway, R. M., Williams, D. L., Kain, W. C., Harman, G. E. & Lorito, M. (1995).

Partial characterization of chitinolytic enzymes from Streptomyces albidoflavus.

Lett. Appl. Microbiol 20(5), 271-276.

Bruins, RM et al., (2000). Microbial resistance to metal in the environment.

Ecotoxicology and Environmental Safety 45, 98–207.

Bruntner, C., Binder, T., Pathom-aree, W., Goodfellow, M., Bull, AT., Potterat, O.,

Puder, C., Horer, S., Schmid, A. & Bolek, W. (2005). Frigocyclinone, a novel angucyclinone antibiotic produced by a Streptomyces griseus strain from

Antarctica. J. Antibiot (Tokyo) 58, 346-349.

Brust, M., Walker, M., Bethell, D., Schiffrin, DJ. & Whyman, R. (1994). Synthesis of

thiol-derivatised gold nanoparticles in a two-phase Liquid–Liquid system. J.

Chem. Soc., Chem. Commun 801-802.

Buchanan, GO., Williams, PG., Feling, RH., Kauffman, CA., Jensen, PR. & Fenical, W.

(2005). Sporolides A and B: structurally unprecedented halogenated macrolides

from the marine actinomycete Salinispora tropica. Org Lett 7, 2731-2734.

Bull, AT., Ward, AC. & Goodfellow, M. (2000). Search and discovery strategies for

biotechnology: the paradigm shift. Microbiol. Mol. Biol. Rev 64, 573–606.

Bull, AT. (2004). Microbial diversity and bioprospecting. ASM Press, Washington.

Bull, AT., Stach, JEM., Ward, AC. & Goodfellow, M. (2005). Marine actinobacteria:

perspectives, challenges, future directions. Antonie Van Leeuwenhoek 87, 65–79.

Burkholder, P., Pfister, R. & Leitz, F. (1966). Production of a pyrrole antibiotic by a

marine bacterium. Appl. Microbiol 14(4), 649-653.

123

Cao, YC., Jin, RC. & Mirkin, CA. (2002). Nanoparticles with Raman spectroscopic

fingerprints for DNA and RNA detection. Science 297, 1536-1540.

Carlos, F. (2003). Multiple drug resistant bacteria. Horizon, Scientific Press.

Caseri, W. (2009). Inorganic nanoparticles as optically effective additives for polymers.

Chemical Engineering Communications 196(5), 549- 572.

Chakraborty, TK., Weber, HP. & Nicolaou, KC. (1995). Design and synthesis of a

rapamycin-based high affinity binding FKBR12 ligand. Chem. Biol 2, 157–61.

Challis, G. L. & Hopwood, D. A. (2003). Synergy and contingency as driving forces

for the evolution of multiple secondary metabolite production by Streptomyces

species. Proc Natl AcadSci U S A 100 (Suppl. 2), 14555–14561.

Champness, W. C. (1994). New loci required for Streptomyces coelicolor

morphological and physiological differentiation. J. Bacteriol 170, 1168-1174.

Chan, WCW., Maxwell, DJ., Gao, X., Bailey, RE., Han, M. & Nie, S. (2002).

Luminescent quantum dots for multiplexed biological detection and imaging.

Curr. Opin. Biotechnol 13, 40–46.

Charan, RD., Schlingmann, G., Janso, J., Bernan, V., Feng, X. & Carter, GT. (2004).

Diazepinomicin, a new antimicrobial alkaloid from marine Micromonospora sp.

J. Nat. Prod 67, 1431-1433.

Chater, K. F. & Bibb, M.J. (1997). Regulation of bacterial antibiotic production, p. 57-

105. In H. Kleinkauf and H. von Dohren (ed.), Products of secondary

metabolism. Biotechnology Vol. 6. VCH, Weinheim, Germany.

Chen, DH. & Huang, YW. (2002). The social conflict inventory (SCI): A measure of

beliefs about classroom peer conflicts. Journal of Colloid and Interface

Sciences 255, 299-313.

Chen, M., Wei, H., Cao, J., Liu, R., Wang, Y. & Zheng, C. (2007). Expression of

Bacillus subtilis proBA genes and reduction of feedback inhibition of proline

synthesis increases proline production and confers osmotolerance in transgenic

Arabidopsis. J. Biochem. Mol. Biol 40, 396–403.

Chen, YH. & Yeh, CS. (2001). A new approach for the formation of alloy nanoparticles: laser synthesis of gold–silver alloy from gold–silver colloidal

mixtures. Chem. Commun (Camb) 371–372.

124

Cheon, J. & Horace, G. (2009). Inorganic nanoparticles for biological sensing, imaging

and therapeutics. J. Mater. Chem 19, 6249- 6250.

Cho, KH., Park, JE., Osaka, T. & Park, SG. (2005). The study of antimicrobial activity

and preservative effects of nanosilver ingredient. Electrochim. Acta 51, 956-960.

Chul-Hoon Lee., Haeyoung Lim., Sangik Moon., Choonshik Shin., Seunghyun Kim.,

Bum-Joon Kim. & Yoongho Lim. (2007). Novel anticancer agent,

benzyldihydroxyoctenone, isolated from Streptomyces sp. causes G1 cell cycle

arrest and induces apoptosis of HeLa cells. Cancer Sci Vol. 98, No (6), 795–802.

Cihangir, N. & Saglam, N. (1997). Studies on Heavy Metal Biosorption by

Phanerochaete chrysosporium ME-446. Turk J Biol 21, 267-272.

Colwell, RR. (2002). Fulfilling the promise of biotechnology. Biotechnol. Adv 20, 215-

228.

Corbaz, R., L. Ettinger, E. Gaumann, W. Keller-Schlierlein, F. Kradolfer, E. Kyburz, L.

Neipp, V. Prelog. & Zahner, H. (1955). Stoffwechselprodukte von

Actinomyceten. Nonactin. Helv. Chim. Acta 38, 1445.

Cunningham, DP. & Lundie, LL. (1993). Precipitation of cadmium by Clostridium thermoaceticum. Appl. Environ. Microbiol 59, 7–14

Dameron, CT., Reese, RN., Mehra, RK., Kortan, AR., Carroll, PJ., Steigerwald, ML.,

Brus LE. & Winge, DR. (1989). Biosynthesis of cadmium sulfide quantum

semiconductor crystallites. Nature 338, 596–597.

Daniel, MC. & Astruct, D. (2004). Gold nanoparticles: assembly, supramolecular

chemistry, quantum-size-related properties and applications toward biology,

catalysis and nanotechnology. Chem. Rev 104, 293–346.

Dharmaraj, S. (2010). Marine Streptomyces as a novel source of bioactive substances.

World Journal of Microbiol Biotechnol 26, 2123-2139.

Das, BK., Samal, SK., Samantaray, BR., Sethi, S., Pattnaik, P. & Mishra, BK. (2006).

Antagonistic activity of cellular components of Pseudomonas species against

Aeromonas hydrophila. Aquacul 253, 17-24.

Das, S., Lyla, PS. & Ajmal Khan, S. (2006a). Marine microbial diversity and ecology: importance and future perspectives. Curr Sci 25, 1325–1335.

125

Dawes, E. A. & Ribbons, D.W. (1962). The endogenous metabolism of

microorganisms. Ann. Rev. Microbiol 16, 241-264.

Delany, I., Sheehan, MM., Fenton, A., Bardin, S., Aarons, S. & O'Gara, F. (2000).

Regulation of production of the antifungal metabolite 2,4-

diacetylphloroglucinol in Pseudomonas fluorescens F113: genetic analysis of

phlF as a transcriptional repressor. Microbiology 146, 537–543.

Dharmaraj, S., Ashokkumar, B. & Dhevendaran, K. (2010). Food-grade pigments from

Streptomyces sp. isolated from the marine sponge Callyspongia diffusa. Food

Res. Int 42, 487–492.

Dhanasekaran, D., Nooruddin Thajuddin. & Annamalai Panneerselvam. (2008). An

antifungal compound: 4' phenyl -1- napthyl-phenyl acetamide from

Streptomyces sp. DPTB16. Facta Universitatis. Series: Medicine and Biology

Vol.15, No (1), 7 – 12.

Ding, L., Pfoh, R., Ruhl, S., Qin, S. & Laatsch, H. (2009). T-muurolol sesquiterpenes

from the marine Streptomyces sp. M491 and revision of the configuration of

previously reported amorphanes. J. Nat. Prod 72, 99–101.

Dobler, M. (1972). Crystal structure of nonactin. Helv. Chim. Acta 55, 1371– 1384.

Dogruel, D., Williams, P. & Nelson, R. W. (1995). Rapid tryptic mapping using

enzymatically active mass-spectrometer probe tips. Anal. Chem 67, 4343–4348.

Dolores Garcia-Gonzalez., Juan F. Martin, M., Tomas Vigal. & Paloma Liras. (1991).

Characterization, Expression in Streptomyces lividans and Processing of the

Amylase of Streptomyces griseus IMRU 3570: Two Different Amylases Are

Derived from the Same Gene by an Intracellular Processing Mechanism.

Journal of Bacteriology 2451-2458.

Donia, M. & Hamann, MT. (2003). Marine natural products and their potential

applications as anti-infective agents. Lancet Infect. Dis 3, 338–348.

Dopson, M. & Lindstrom, EB. (1999). Potential role of thiobacillus caldus in

arsenopyrite bioleaching. Appl. Environ. Microbiol 65, 36–40.

Duran, N., De Souza, GIH., Alves, OL., Esposito, E. & Marcato, PD. (2003).

Antibacterial activity of silver nanoparticles synthesized by Fusarium oxysporum strain. J. Nanotechnol, 122-8.

126

Dutcher, J. D. (1962). Isolation and characterization of a cytotoxic agent, SQ 15,859,

from Streptomyces chrysomallus. Antimicrob. Agents. Chemother 173–177.

Egorov, NS. (1985). Antibiotics, a scientific approach. Mir Publishers: Moscow.

Ekwenye, UN, & Kazi, E. (2007). Investigation of plasmid DNA and antibiotic

resistance in some pathogenic organism. Afr. J. Biotechnol 6, 877–88.

El-Shatoury, SA., El-Shenawy, NS. & Abd El-Salam, IM. (2009). Antimicrobial,

antitumour and in vivo cytotoxicity of actinomycetes inhabitingmarine shellfish.

World J. Microbiol. Biotechnol 25, 1547–1555.

El-Tayeb, OM., Salama, AA., Hussein, MMM. & El-Sedawy, HF. (2004).

Optimization of industrial production of rifamycin B by Amycolatopsis

mediterranei III. Production in fed- batch mode in shake flasks. Afr. J.

Biotechnol 3, 387-394.

Elumalai, E.K., Prasad, T.N.V.K.V., Hemachandran, J., Viviyam therasa, S.,

Thirumalai, T. & David, E. (2010). Extracellular synthesis of silver

nanoparticles using leaves of Euphorbia hirta and their antibacterial activities. J.

Pharm. Sci. Res 2, 549- 554.

Farooqui, A.M.D., Chauhan, P.S., Moorthy, P.K. & Shaik, J. (2010). Extraction of

silver nanoparticles from the left extracts of Clerodendrum incerme. Digest. J.

Nanomater. Biostruct 5, 43-49.

Faulkner, DJ. (2001). Marine natural products. Nat. Prod. Rep 18(1), 1-49.

Faulkner, DJ. (1998). Marine natural products. Nat. Prod. Rep 15(2), 113-158.

Faulkner, DJ. (2000). Marine pharmacology. Antonie van Leeuwenhoek. 77, 135-145.

Faulkner, DJ. (1997). Marine natural products. Nat. Prod. Rep 14(3), 259-302.

Faulkner, DJ. (1999). Marine natural products. Nat. Prod. Rep 16(2), 155-198.

Faulkner, DJ. (2000). Marine natural products. Nat. Prod. Rep 17(1), 7-55.

Faure, C., Derre, A. & Neri, W. (2003). Spontaneous Formation of Silver Nanoparticles

in Multilamellar vesicles. J. Phys. Chem B 107, 4738-4746.

Fayaz, A.M., Balaji, K., Girilal, M., Yadav, R., Kalaichelvan, P.T. & Venketesan, R.

(2010). Nanomedicine 6(1), 103-9.

127

Feling, RH., Buchanan, GO., Mincer, TJ., Kauffman, CA., Jensen, PR. & Fenical, W.

(2003). Salinosporamide A: a highly cytotoxic proteasome inhibitor from a

novel microbial source, a marine bacterium of the new genus Salinospora. Angew. Chem. Int. Ed. Engl 42, 355-357.

Fenical, W. & Jensen, PR. (2006). Developing a new resource for drug discovery:

marine actinomycete bacteria. Nat. Chem. Biol 2, 666–673.

Fenical, W. (1993). Chemical studies of marine bacteria: developing a new resource.

Chem. Rev 93, 1673–1683.

Fenical, W., Baden, D., Burg, M., Goyet, CV., Grimes, JD., Katz, M. ,Marcus, NH.,

Pomponi, S., Rhines, P., Tester, P. & Vena, J. (1999). Marine-derived

pharmaceuticals and related bioactive compounds. In: FenicalW(ed) From

monsoons to microbes: understanding the ocean’s role in human health.

National Academies Press, Washington, 71–86.

Fiedler, HP., Bruntner, C., Bull, AT., Ward, AC., Goodfellow, M., Potterat, O., Pude,

C., Mihm, G. (2005). Marine Actinomycetes as a source of novel secondary

metabolities, Antonie van Leeuwen hoek 87, 37-42.

Fiedler, HP., Bruntner, C., Bull, AT., Ward, AC., Goodfellow, M., Potterat, O., Puder,

C. & Flaig, W. & Kutzner, H.J. (1960). Beitrag zur Okologie der Gattung

Streptomyces Waksman et Henrici. Arch. Mikrobiol 35, 105-138.

Fleming, A. (1929). On the antibacterial action of cultures of a Penicillium, with

special Reference to their use in the isolation of B. influenzae. British Journal of

Experimental Pathology 10, 226-236.

Flowers TH. & Williams, ST. (1977). The Influence of pH on the Growth Rate and

Viability of Neutrophilic and Acidophilic Streptomyces. Microbiology 18, 48–

54.

Fortin, D. & Beveridge, TJ. (2000). From biology to biotechnology and medical

applications. In: Baeuerien E (ed) Biomineralization, Wiley-VCH, Weinheim 7-

22.

Fox, EM. & Howlett, BJ. (2008). Secondary metabolism: regulation and role in fungal

biology. Current Opinion in Microbiology 11, 481-487.

Freitas, DA., Leclerc, S., Miyoshi, A., Oliveira, SC., Sommer, PSM., Rodrigues, L.,

Correa Junior A., Gautier, M., Langella, P., Azevedo, VA. & Le Loir, Y. (2005).

128

Secretion of Streptomyces tendae antifungal protein 1 by Lactococcus lactis.

Brazilian Journal of Medical and Biological Research 38, 1585-1592.

Fujita, Y., Shimakata, T. & Kusaka. T. (1980). Purification of two forms of enoyl-CoA

hydratase. J. Biochem 88, 1045–1050.

Gade, AK., Bonde, P., Ingle, AP., Marcato, PD., Duran, N. & Rai, MK. (2008).

Exploitation of Aspergillus niger for Synthesis of Silver Nanoparticles. J

Biobased Mater Bioenergy 2, 243-247.

Gesheva, V. & Gesheva, R. (1993). Structure of the Streptomyces hygroscopicus 111-

81 population and characteristics of its variants. Actinomycetes 4, 65- 72.

Gole, A., Dash, C., Ramakrishnan, V., Sainkar, SR., Mandale, AB., Rao, M. & Sastry,

M. (2001). Pepsin gold colloid conjugates: preparation, characterization and

enzymatic activity. Langmuir 17, 1674–1679.

Gotoh, T., Nakahara, K., Nishiura, T., Kuroda, Y., Okuhara, M., Kohsaka, M., Aoki, H.

& Imanaka, H. (1982). Studies of a new immunoactive peptide, FK-156. II.

Fermentation, extraction and chemical and biological characterization. J.

Antibiot 35, 1286-1292.

Gottliebd. (1961). An evaluation of criteria and procedures used in the description and

characterization of the streptomycetes: a cooperative study. Appl. Microbiol 9,

55.

Govindaraju, K., Tamilselvan, S., Kiruthogs, V. & Simgaravelu, G. (2010). Biogenic

silver nanoparicles by Solanum torvum and their promising antimicrobial

activity. J. Biopesticide 3, 394-399.

Hagstrom, A., Pommier, T., Rohwer, F., Simu, K., Stolte, W., Svensson, D. & Zweifel,

UL. (2002). Use of 16S ribosomal DNA for delineation of marine

bacterioplankton species. Appl. Environ. Microbiol 68, 3628-3633.

Hamouda, T., Myc, A., Donovan, B., Shih, A., Reuter, JD. & Baker Jr, JR. (2000). A

novel surfactant nanoemulsion with a unique non-irritant topical antimicrobial

activity against bacteria, enveloped viruses and fungi. Microbiol. Res 156, 1-7.

Han, Y., Yang, B., Zhang, F., Miao, X. & Li, Z. (2009). Characterization of antifungal

chitinase from marine Streptomyces sp. DA11 associated with South China Sea sponge Craniella australiensis. Mar. Biotechnol 11, 132-140.

129

Harindran, J., Gupte, TE. & Naik, SR. (1999). HA-1-92, a new antifungal antibiotic

produced by Streptomyces CDRIL-312: Fermentation, isolation, purification

and biological activity. World J. Microbiol. Biotechnol 15, 425-430.

Harvey, A. (2000). Strategies for discovering drugs from previously unexplored natural

products. Drug Dicovery Today 5, 294–300.

Hayakawa, Y., Shirasaki, S., Shiba, S., Kawasaki, T., Matsuo, Y., Adachi, K. &

Shizuri, Y. (2007). Piericidins C7 and C8, new cytotoxic antibiotics produced

by a marine Streptomyces sp. J. Antibiot 60, 196-200.

He, BL., Tan, JJ., Kong, YL. & Liu, HF. (2004). Synthesis of size controlled Ag

nanoparticles. J Mol Catal A: Chem 221, 121-126.

He, P., He, H.-Z., Dai, J., Sheng, Q.-H. & Zhao, X. (2005). The human plasma

proteome: Analysis of Chinese serum using shotgun strategy. Proteomics 5,

3442–3453.

He, W., Lei, J., Liu, Y. & Wang. Y. (2008). The LuxR family members GdmRI and

GdmRII are positive regulators of geldanamycin biosynthesis in Streptomyces

hygroscopicus 17997. Arch. Microbiol 189, 501-510.

He, W., Wu, L., Gao, Q., Du, Y. & Wang. Y. (2006). Identification of AHBA

biosynthetic genes related to geldanamycin biosynthesis in Streptomyces

hygroscopicus 17997. Curr. Microbiol 52, 197-203.

Head Ian et al., (2003). Bioremediation: A Critical Review. Newcastle: Horizon

Scientific Press.

Henry, CM. (2000). Antibiotic Resistance, Chem & Eng. News, 41-58. Int. J. Syst.

Bacteriol 16, 313-340.

Hemath Naveen, K.S., Kumar, G., Karthik, L. & Rao, K.V.B. (2010). Archives of

Applied Science Research 2(6), 161-167.

Hernandez, LM. (2003). New cytotoxic indolic metabolites from a marine

Streptomyces. J. Nat. Prod 66, 863-864.

Higgins, DG., Bleasby, AJ. & Fuchs, R. (1992). CLUSTAL V: improved Software for

multiple sequence alignment. Comput. Appl. Biosci 8, 189–191.

Hill, RA. (2003). Marine natural products. Annu. Rep. Prog. Chem. Sec B 99, 183-207.

130

Hillmann, F., Fischer, R.J. & Bahl, H. (2006). The rubrerythrin-like protein Hsp21 of

Clostridium acetobutylicum is a general stress protein. Arch. Microbiol 185,

270– 276.

Himadri malik., Banani Sur., Neha Singhal. & Vinod Bihari. (2008). Antimicrobial

protein from Streptomyces fulvissimus inhibitory to methicillin resistant

Staphylococcus aureus. Indian Journal of Experimental Biology Vol 46, 254-

257.

Hitomi Ichinose., Zui Fujimoto., Mariko Honda., Koichi Harazono., Yukifumi

Nishimoto., Atsuko Uzura. & Satoshi Kaneko. (2009). A-L-

Arabinopyranosidase from Streptomyces avermitilis Is a Novel Member of

Glycoside Hydrolase Family 27. The Journal of biological Chemistry Vol. 284,

No (37) 25097–25106.

Hodak, JH., Henglein, A., Giersig, M. & Hartland, GV. (2000). Laserinduced inter-

diffusion in AuAg core-shell nanoparticles. J. Phys. Chem. B 104, 11708–11718.

Hong, Y.-S., Lee, D., Kim, W., Jeong, J.K., Kim, C.G., Sohng, J.K., Lee, J.H., Paik,

S.G. & Lee, J.J. (2004). Inactivation of the carbamoyltransferase gene refines

post-polyketide synthase modification steps in the biosynthesis of the antitumor agent geldanamycin. J. Am. Chem. Soc. 126, 11142-11143.

Hornebecq, V., Antonietti, T., Cardinal, M. & Delapierre, T. (2003). Stable Silver

Nanoparticles Immobilized in Mesoporous Silica. Chem.Mater 15, 1993-1999.

Hu, SC., Hong, K., Song, YC., Liu, JY. & Tan, RX. (2009). Biotransformation of

soybean isoflavones by a marine Streptomyces sp. 060524 and cytotoxicity of

the products. World J. Microbiol. Biotechnol 25, 115–121.

Hughes, CC., Prieto-Davo, A., Jensen, PR. & Fenical, W. (2008). The marinopyrroles,

antibiotics of an unprecedented structure class from a marine Streptomyces sp.

Org. Lett 10, 629–631.

Hussain, S. & Pal, AK. (2008). Incorporation of nanocrystalline silver on carbon

nanotubes by electrodeposition technique. Mater. Lett 62, 1874-1877.

Ikeda, H., Ishikawa, J., Hanamoto, A., Shinose, M., Kikuchi, H., Shiba, T., Sakaki, Y.,

Hattori, M. & Omura, S. (2003). Complete genome sequence and comparative analysis of the industrial microorganism Streptomyces avermitilis. Nat.

Biotechnol 21(5), 526-531.

131

Imada, C., Koseki, N., Kamata, M., Kobayashi, T. & HamadaSato, N. (2007). Isolation

and characterization of antibacterial substances produced by marine

actinomycetes in the presence of seawater. Actinomycetologica 21, 27–31.

Ingle, A., Gade, A., Pierrat, S., Sonnichsen, C. & Rai, M. (2008). Mycosynthesis of

Silver Nanoparticles using the fungus Fusarium acuminatum and its activity

against some human pathogenic bacteria. Current Nanoscience 4, 141-144.

Itoh, T., Kinoshita, M., Aoki, S. & Kobayashi, M. (2003). Komodoquinone A, a novel

neutritogenic anthracycline, from marine Streptomyces sp. KS3. J. Nat. Prod 66,

1373-1377.

Jain, N., Bhargava, A., Majumdar, S., Tarafdar, J.C. & Panwar, J. (2010). Nanoscale,

DOI: 10.1039/c0nr00656d.

Jensen, PR., Gontang, E., Mafnas, C., Mincer, TJ. & Fenical, W. (2005). Culturable

marine actinomycete diversity from tropical pacific ocean sediments. Environ.

Microbiol 7, 1039-1048.

Jensen, PR., Mincer, TJ., Williams, PG. & Fenical, W. (2005b). Marine Actinomycete

diversity and natural product discovery. Antonie van Leeuwenhoek 87, 43-48.

Jeong, BC., Hawes, C., Bonthrone, KM. & Macaskie, LE. (1997). Localization of

enzymically enhanced heavy metal accumulation by Citrobacter sp. and metal

accumulation in vitro by liposomes containing entrapped enzyme. Microbiology

143, 2497–2501.

Jha, AK. & Prasad, K. (2010). Green synthesis of silver nanoparticles using Cycas leaf.

Int. J. Green Nanotech: Phy. Chem 1, 110-117.

Jiang, HQ., Manolache, S., Wong, ACL. & Denes, FS. (2004). Plasma-enhanced

deposition of silver nanoparticles onto polymer and metal surfaces for the

generation of antimicrobial characteristics. J. Appl. Polym. Sci 93, 1411-1422.

Jonathan R. Whicher., Galina Florova., Paulina K. Sydor., Renu Singh., Mamoun

Alhamadsheh., Gregory L. Challis., Kevin A. Reynolds. & Janet, L. Smith.

(2011). Structure and Function of the RedJ Protein, a Thioesterase from the

Prodiginine Biosynthetic Pathway in Streptomyces coelicolor. J. Biol. Chem

286, 22558-22569.

Jones, L . A., & Bradley, G. (1964). Relationships among streptomycetes, nocardiae,

mycobacteria and other actinomycetes. Mycologia 56, 505-513.

132

Jung-Hee Woo., Etsushi Kitamura., Hisashi Myouga. & Yuto Kamei. (2002). An

Antifungal Protein from the Marine Bacterium Streptomyces sp. Strain AP77 Is

Specific for Pythium porphyrae, a Causative Agent of Red Rot Disease in Porphyra spp. Applied and Environmental Microbiology 2666–2675.

Jun Sung Kim., Eunye Kuk., Kyeong Nam Yu., Jong-Ho Kim., Sung Jin Park., Hu

Jang Lee., So Hyun Kim., Young Kyung Park., Yong Ho Park., Cheol-Yong

Hwang., Yong-Kwon Kim., Yoon-Sik Lee., Dae Hong Jeong. & Myung-Haing

Cho. (2007). Antimicrobial effects of silver nanoparticles. Nanomedicine:

Nanotechnology, Biology and Medicine 3, 95-101.

Kanoh, K., Matsuo, Y., Adachi, K., Imagawa, H., Nishizawa, M. & Shizuri, Y. (2005).

Mechercharmycins A and B, cytotoxic substances from marine-derived

Thermoactinomyces sp. YM3-251. J. antibiot 58, 289-292.

Kapley, A., Purohit, H.J., Chhatre, S., Shanker, R., Chakrabarti, T. & Khanna, P.

(1999). Osmotolerance and hydrocarbon degradation by a genetically

engineered microbial consortium. Bioresour. Technol 67, 241–245.

Kapoor, A., Viraraghavan, T. & Cullimore, DR. (1999). Removal of heavy metals

using the fungus Aspergillus niger. Biosource Technol 70, 95-104.

Kariminik, A. & Baniasadi. F. (2010). Pageantagonistic Activity of Actinomycetes on

Some Gram Negative and Gram Positive Bacteria. World Appl. Sci. J 8, 828–

832.

Kathiresan, K., Manivannan, S., Nabeel, MA. & Dhivya, B. (2009). Studies on silver

nanoparticles synthesized by a marine fungus, Penicillium fellutanum isolated

from coastal mangrove sediment. Colloids Surfaces B: Biointerfaces 71, 133-

137.

Ke Wang., Xiang-Yan Li., Xiao-Guang Chen. & Zhan-Zhu Liu. (2010). Synthesis and

antitumor activity of bisindolylmaleimide and amino acid ester conjugates,

Journal of Asian Natural Products Research 12 (1), 36-42

Kelecom, A. (2002). Secondary metabolites from marine microorganisms. An. Acad.

Bras. Cienc 74(1), 151-170.

Keller, NP., Turner, G. & Bennett, JW. (2005). Fungal secondary metabolism—from biochemistry to genomics. Nat. Rev. Microbiol 3, 937–947.

Khaled, A.. Shaaban., Chris Stamatkin., Chendil Damodaran. & Jurgen Rohr. (2011).

11- Deoxylandomycinone and landomycins X-Z, new cytotoxic

133

angucyclin(on)es from a Streptomyces cyanogenus K62 mutant strain. J

Antibiot 64(1), 141–150.

Khandelwal N, Singh A, Jain D, Upadhyay M.K. & Verma H.N. (2010). Green

synthesis of silver nanoparticles using Argimone mexicana leaf extract and

Evaluation of their antimicrobial activities. Digest. J. Nanomater. Biostruct 5,

483-489.

Kim, B., Sahin, N., Minnikin, DE., Zakrzewska-Czerwinska, J., Mordarski, M. &

Goodfellow, M. (1999). Classification of thermophilic streptomycetes including

the description of Streptomyces thermoalcalitolerans. International Journal of

Systematic Bacteriology 49, 7-17.

Kim, J. S., Park, D. H., Lim, C. K., Choi, Y. C., Hahm, Y. I. & Cho. W. D. (1999).

Potato common scab by Streptomyces turgidiscabies. Korean J. Plant Pathol

14, 551-554.

Kim, KJ., Kim, MA. & Jung, JH. (2008). Antitumor and antioxidant activity of

protocatechualdehyde produced from Streptomyces lincolnensis M-20. Archives

of Pharmacal Research 31 (12), 1572-1577.

Kim, SB. & Goodfellow, M. (2002). Streptomyces thermospinisporus sp. nov., a

moderately Kokare, CR., Mahadik, KR., Kadam, SS. & Chopade, BA. (2004).

Isolation, characterization and antimicrobial activity of marine halophilic

Actinopolyspora species AH1 from the West coast of India. Curr. Sci 86, 593-

597.

Klahn, S., Marquardt, D.M., Rollwitz, I. & Hagemann, M. (2009). Expression of the

ggpPS gene for glucosylglycerol biosynthesis from Azotobacter vinelandii

improves the salt tolerance of rabidopsis thaliana. J. Exp. Bot 60, 1679–1689.

Klaus, T., Joerger, R., Olsson, E. & Granqvist, CG. (1999). Silver-based crystalline

nanoparticles, microbially fabricated. Proc. Natl. Acad. Sci 96, 13611-13614.

Kloos, WE. & Bannerman, TL. (1994). Update on clinical significance of coagulase-

negative staphylococci. Clin. Microbiol. Rev 7, 117–40.

Kohei Oda., Saori Takahashi., Norihisa Kikuchi. & Yuji Shibano. (1996). A Novel

proteinaceous kex2 proteinase inhibitor, from Streptomyces platensis Q268. Biosci, Biotech, Biochem 60 (8), 1388-1389.

134

Kohki Endo., Kuniaki Hosono., Teruhiko Beppu. & Kenji Ueda. (2002). A novel

extracytoplasmic phenol oxidase of Streptomyces: its possible involvement in

the onset of morphogenesis. Microbiology 148, 1767–1776.

Kokare, C.R., Mahadik, K.R., Kadam, S.S. & Chopade, B.A. (2004). Isolation,

characterization and antimicrobial activity of marine halophilic Actinopolyspora

species AH1 from the west coast of India. Current Science Vol. 86, No. 4, 25.

Konishi, Y., Nomura, T., Tsukiyama, T. & Saitoh, N. (2004). Microbial preparation of

gold nanoparticles by anaerobic bacterium. Trans. Mater. Res. Soc. Jpn 29,

2341–2343.

Kowshik, M., Ashtaputre, S., Kharrazi, S., Vogel, W., Urban, J., Kulkarni, SK. &

Paknikar, KM. (2003). Extracellular synthesis of silver nanoparticles by a

silver-tolerant yeast strain MKY3. Nanotechnology 14, 95–100.

Kowshik, M., Deshmukh, N., Vogel, W., Urban, J., Kulkarni, SK. & Paknikar, KM.

(2002b). Microbial synthesis of semiconductor CdS nanoparticles, their

characterization and their use in the fabrication of an ideal diode. Biotechnol.

Bioeng 78, 583–588.

Kowshik, M., Vogel, W., Urban, J., Kulkarni, SK. & Paknikar, KM. (2002a). Microbial

synthesis of semiconductor PbS nanocrystallites. Adv. Mater 14, 815–818.

Krishnaraj, C., Jagan, EG., Rajasekar, S., Selvakumar, P., Kalaichelvam, PT. & Mohan.

N (2010). Synthesis of silver nanoparticles using Acalypha indica leaf extracts

and its antibacterial activity against water borne pathogens. Colloids and

Surfaces B: Biointerfaces 76, 50-56.

Kurtboke, D.J. & Wildman, H.G. (1998). Accessing Australian biodiversity towards an

improved detection of actinomycetes – an activity report. Actinomycetes 9, 1–2.

Kuster, E. (1963). Morphological and physiological aspects of the taxanomy of

Streptomycetes. Microbiol. Esp16, 193–202.

Kwon, HC., Kauffman, CA., Jensen, PR. & Fenical, W. (2006). Marinomycins a-d,

antitumor antibiotics of a new structure class from a marine actinomycete of the

recently discovered genus Marinispora. J. Am. Chem. Soc 128, 1622-1632.

Kyoung-Ja Kim., Mi-Ae Kim., & Jee-Hyung Jung. (2008). Antitumor and Antioxidant Activity of Protocatechualdehyde Produced from Streptomyces lincolnensis M-

20. Arch. Pharm. Res Vol. 31, No (12), 1572-1577.

135

Laemmli, U. K. (1970). "Cleavage of structural proteins during the assembly of the.

head of bacteriophage T4. "Nature 227(259), 680-5.

Lakshmipathy, DT. & Krishnan, K. (2009). A report on the antidermatophytic activity

of actinomycetes. Int. J. Integr. Biol 6, 132–136.

Lam, KS. (2006). Discovery of novel metabolites from marine actinomycetes. Curr.

Opin. Microbiol 9, 245–251.

Lanje, A.S., Sharma, S.J & Pode, R.B. (2010). J. Chem. Pharm. Res 2(3), 478-483.

Lee, JG., Yoo, ID., & Kim, WG. (2007). Differential antiviral activity of benzastatin C

and its dechlorinated derivative from Streptomyces nitrosporeus Biol. Pharm.

Bull 30(4), 795-797.

Leopold, N. & Lendl, B. (2003). A New Method for Fast Preparation of Highly

Surface-Enhanced Raman Scattering (SERS) Active Silver Colloids at Room

Temperature by Reduction of Silver Nitrate with Hydroxylamine Hydrochloride.

J. Phys. Chem. B 107, 5723-5727.

Levine, D.P., Fromm, B.S. & Reddy, B.R. (1991). Slow response to vancomycin or

vancomycin plus rifampin in therapy among patients with methicillin-resistant Staphylococcus aureus endocarditis. Ann. Intern. Med 115, 674–680.

Li, F., Maskey, RP., Qin, S., Sattler, I., Fiebig, HH., Maier, A., Zeeck, A. & Laatsch, H.

(2005). Chinikomycins A and B isolation, structure elucidation and biological

activity of novel antibiotics from a marine Streptomyces sp. isolate M045. J.

Nat. Prod 68, 349-353.

Li, S., Shen, Y., Xie, A., Yu, X., Qui, L., Zhang, L. & Zhang, Q. (2007). Green

synthesis of silver nanoparticles using Capsicum annum L. extract. Green

Chemistry 9, 852-858.

Liang, Ye., Quingfeng Zhou., Chunhui Liu., Xuegang Luo., Guangshui Na. & Tao Xi.

(2008). Identification and fermentation optimization of a marine derived

Sterptomyces griseorubens with antitumor activity. Indian Journal of marine

sciences 14-21.

Liao, S. M., Zhang, J., Jeffery, D.A., Koleske, A.J. & Thompson, C.M et al., (1995). A

kinase-cyclin pair in the RNA polymerase II holoenzyme. Nature 374, 193–196.

136

Lin, J., Bai, L., Deng, Z. and Zhong, J.J. (2010). Effect of Ammonium in Medium on

ansamitocin P-3 Production by Actinosynnema pretiosum. Biotechnol. Biopro.

Engineer 15, 119–125.

Link, S., Wang, ZL. & El-Sayed, MA. (1999). Alloy formation of gold-silver

nanoparticles and the dependence of the plasmon absorption on their

composition. J. Phys. Chem B 103, 3529–3533.

Lu, Y., Dong, X., Liu, S. & Bie, X. (2009). Characterization and identification of a

novel marine Streptomyces sp. produced antibacterial substance. Mar.

Biotechnol 11, 717–724.

Lundgren, DG. & Silver, M. (1980). Ore leaching by bacteria. Annu. Rev. Microbiol 34,

263–283.

Lyons, AJ & Pridham, TG. (1973). Standard antimicrobial spectra as aids in

characterization and identification of actinomycetales. Develop. Indus.

Microbiol 14, 205-211.

Madhumita Joshi., Xin Rong., Simon Moll., Johan Kers., Christopher Franco. &

Rosemary Loria. (2007). Streptomyces turgidiscabies Secretes a Novel Virulence Protein, Nec1, which Facilitates Infection. MPMI Vol. 20, No. 6,

599–608.

Magarvey, NA., Keller, JM., Bernan, V., Dworkin, M. & Sherman, DH. (2004).

Isolation and Malaviya, R., Ross, E., MacGregor, J.I., Ikeda, T., Little, J.R.,

Jakschik, B.A. & Abraham, S.N. (1994). Mast cell phagocytosis of FimH-

expressing enterobacteria. J. Immunol 152, 907–1914.

Manam, RR., Teisan, S., White, DJ., Nicholson, B., Grodberg, J., Neuteboom, STC.,

Lam, KS., Mosca, DA., Lloyd, GK. & Potts, BCM. (2005). Lajollamycin, a

nitro-tetraene spiro-b-lactone-g-lactam antibiotic from the marine actinomycete

Streptomyces nodosus. J. Nat. Prod 68, 240-243.

Mandal, D., Bolander, ME., Mukhopadhyay, D., Sarkar, G. & Mukherjee, P. (2006).

The use of microorganisms for the formation of metal nanoparticles and their

application. Appl. Microbiol. Biotechnol 69, 485–492.

Manfio, GP., Atalan, E., Zakrzewska-Czerwinska, J., Mordarski, M., Rodriguez, C., Collins, MD. & Goodfellow, M. (2003). Classification of novel streptomycetes

as Streptomyces ureus sp. nov., Streptomyces laceyi sp. nov. and Streptomyces

sanglieri sp. nov. Antonie van Leeuwenhoek, 83, 245-255.

137

Mann, J. (2001). Natural products as immunosuppressive agents. Nat. Prod. Rep 18,

417–430.

Marambio-Jones, C. & Hoek, E.M.V. (2010). A review of the antibacterial effects of

silver nanomaterials and potential implications for human health and the

environment. Nanopart. Res 12, 1531-1551.

Marcone, GL., Carrano, L., Marinelli, F. & Beltrametti, F. (2010). Protoplast

preparation and reversion to the normal filamentous growth in antibiotic-

producing uncommon actinomycetes. J. Antibiot 63, 83–88.

Martin Roberge., Francois Shareck., Rolf Morosoli., Dieter Kluepfel. & Claude Dupont.

(1999). Characterization of active-site aromatic residues in xylanase A from

Streptomyces lividans. Protein Engineering Vol. 12, No.3, 251–257.

Martin, TW., Zbigniew Dauter., Yancho Devedjiev., Peter Sheffield., Filip Jelen., Min

He., David H. Sherman., Jacek Otlewski., Zygmunt S. Derewenda. & Urszula

Derewend. (2002). Molecular Basis of Mitomycin C Resistance in

Streptomyces: Structure and Function of the MRD Protein. Structure Vol. 10,

933–942.

Maskey, RP., Helmke, E., Kayser, O., Fiebig, HH., Maier, A., Busche, A. & Laatsch, H.

(2004a). Anti-cancer and antibacterial trioxacarcins with high anti-malaria

activity from a marine streptomycete and their absolute stereochemistry. J.

Antibiot (Tokyo) 57, 771-779.

Maskey, RP., Li, FC., Qin, S., Fiebig, HH. & Laatsch, H. (2003). Chandrananimycins

A and C Production of novel anticancer antibiotics from a marine Actinomadura

sp. isolates M048 by variation of medium composition and growth conditions. J.

Antibiot (Tokyo) 56, 622-629.

Maskey, RP., Sevvana, M., Uson, I., Helmke, E. & Laatsch, H. (2004b). Gutingimycin:

a highly complex metabolite from a marine streptomycete. Angew. Chem. Int.

Ed. Engl 43, 1281-1283.

Mathew, A., Dhevendaran, K., Geogekutty, M.I. & Natarajan, P. (1994). L-

asparaginase activity in antagonistic Streptomycetes associated with clam

Villorita cyprinoides (Hanley). Ind. J. Mar. Sci 23, 204-208.

McLeod, MC., McHenry, RS., Beckman, EJ. & Roberts, CB. (2003). Synthesis and

stabilization of silver metallic nanoparticles and premetallic intermediates in

perfluoro polyether / CO2 reverse micelle systems. J. Phys. Chem. B 107, 2693–

2700.

138

Mehra, RK. & Winge, DR (1991). Metal ion resistance in fungi: Molecular

mechanisms and their regulated expression. J. Cell. Biochem 45, 30-40.

Mihm, G. (2005). Marine actinomycetes as a source of novel secondary metabolites.

Antonie Van Leeuwenhoek 87, 37–42.

Miller, ED, Kauffman, CA., Jensen, PR. & Fenicol. (2007). Piperazimycins: cytotoxic

hexadepepsipeptides from a marine derived bacterium of the genus

Streptomyces, J. Org. Chem 72, 323-330.

Mishra, SK., Gordon, RE. & Barnett, D.A. (1980). Identification of nocardiae and

streptomycetes of medical importance. Journal of Clinical Microbiology 11,

728-736.

Misra, TK. (1992). Bacterial resistances to inorganic mercury salts and

organomercurials. Plasmid 27, 4–16.

Mitchell, SS., Nicholson, B., Teisan, S., Lam, KS. & Potts, BCM. (2004).

Aureoverticillactam, a novel 22-atom macrocyclic lactam from the marine

actinomycete Streptomyces aureoverticillatus. J. Nat. Prod 67, 1400-1402.

Miyadoh, S. (1993). Research on antibiotic screening in Japan over the last decade: a producing microorganisms approach. Actinomycetologica 9, 100–106.

Mizukoshi, Y., Okitsu, K., Maeda, Y., Yamamoto, TA., Oshima, R. & Nagata, Y.

(1997). Sonochemical preparation of bimetallic nanoparticles of gold /

palladium in aqueous solution. J. Phys. Chem. B 101, 7033–7037.

Mohamed, S. Abdelfattch., Kazufumi Toume. and Masami Ishibashi. (2011).

Izumiphenazine D, a New Phenazoquinoline N-Oxide from Streptomyces sp.

IFM 11204. Chemical & Pharmaceutical Bulletin Vol. 59, No. 4, 508.

Mohanpuria, P et al., (2008). Biosynthesis of nanoparticles: technological concepts and

future applications. Journal of Nanoparticle Research 10(3), 507-517.

Mohanpuria, P., Rana, K.N. & Yadav, S.K. (2008). Biosynthesis of anoparticles:

technological concepts and future applications. Journal of Nanoparticle

Research 10, 507-517.

Mohd-Fuat, A.R., Amini, A.R.B & Hasyima, O.M. (2010). Isolation of Streptomyces with broad-spectrum antifungal activity from polyherbal products. Int. J. Bot 6,

259-265.

139

Moncheva, P., Tishkov, S., Dimitrova, N., Chipeva, V., Nikolova, S.A. & Bogatzevska,

N. (2002). J. Culture Collections 3, 3-14.

Moncheva, S., Doncheva, V., Shtereva, G., Kamburska, L., Malej, A. & Gorinstein, S.

(2002). Application of eutrophication indices for assessment of the Bulgarian

Black Sea coastal ecosystem ecological quality. Water Sci. Technol 46, 19-28.

Moscona, A., Porotto, M., Palmer, S., Tai, C., Aschenbrenner, L., Triana-Baltzer, G.,

Li, QX., Wurtman, D., Niewiesk, S. & Fang, F. (2010). A recombinant sialidase

fusion protein effectively inhibits human parainfluenza viral infection in vitro

and in vivo. J. Infect. Dis 202, 234-241.

Mukherjee, P et al., (2004). Extracellular Synthesis of Gold Nanoparticles by the

Fungus Fusarium oxysporum. Chem. BioChem 3(5), 461 – 463.

Mukherjee, P., Ahmad, A., Mandal, D., Senapati, S., Sainkar, SR. & Khan, MI. (2001).

Fungus-Mediated Synthesis of Silver Nanoparticles and Their Immobilization

in the Mycelial Matrix: A Novel Biological Approach to Nanoparticle Synthesis.

Nano Lett 1, 515-519.

Mukherjee, P., Ahmad, A., Mandal, D., Senapati, S., Sainkar, SR., Khan, MI., Parischa, R., Ajayakumar, PV., Alam, M., Kumar, R. & Sastry, M. (2001b). Fungus

mediated synthesis of silver nanoparticles and their immobilization in the

mycelial matrix: a novel biological approach to nanoparticle synthesis. Nano

Lett 1, 515–519.

Mukherjee, P., Senapati, S., Mandal, D., Ahmad, A., Khan, MI., Kumar, R. & Sastry,

M. (2002). Extracellular synthesis of gold nanoparticles by the fungus Fusarium

oxysporum. Chembiochem 3, 461–463.

Nachtigall, J., Schulz, D., Beil, W., Süssmuth, RD. & Fiedler, HP. (2010).

Aranciamycin anhydride, a new anthracycline-type antibiotic isolated from

Streptomyces sp. Tü 6384. J. Antibiot 63, 397-399.

Nadson, GA. (1903). Microorganismi kak geologitsheskie dieiatieli, St. Petersbourg:

Comm. Inv. Slavian Mineral Lakes.

Narayanan, K.B. & Sakthivel, N. (2010). Advances in Colloid and Interface Science

156, 1–13.

Naughton, L.M., Blumerman, S.L., Carlberg, M. & Boyd, E.F. (2009). Osmoadaptation

among Vibrio species and unique genomic features and physiological responses

of Vibrio parahaemolyticus. Appl. Environ. Microbiol 75, 2802–2810.

140

Ndonde, MJM. & Semu, E. (2000). Preliminary characterization of some Streptomyces

species from four Tanzanian soils and their animicrobial potential against

selected plant and animal pathogenic bacteria. World J. Microbiol. Biotechnol 16, 595-599.

Nitsch, B. & Kutzner, HJ. (1969). Egg-Yolk agar as diagnostic medium for

Streptomycetes. Experientia 25, 113-116.

Nolan, R.D. & Cross, T. (1988). Isolation and screening of Actinomycetes. In

Actinomycetes in Biotechnology ed. Goodfellow, M., Williams, S.T. and

Mordaski, M, 1-32. London: Academic Press.

O’Donnell, A.G., Embley, T.M. & Goodfellow, M. (1993). Future of Bacterial

Systematics. In: Handbook of New Bacterial Systematics, London: Academic

Press 513-524.

Okami, Y. (1984). Marine microorganisms as a source of bioactive agents. In: Klug,

MJ., Reddy, CA (eds) Current perspective in microbial ecology. American

Society for Microbiology, Washington 615-655.

Okami, Y., Okazaki, T., Kitahara, T. & Umezawa, H. (1976). Studies on marine Microorganisms. A new antibiotic, aplasmomycin, produced by a streptomycete

isolated from shallow sea mud. J. Antibiot 29, 1019-1025.

Olano, C., Mendez, C. & Salas, JA. (2009). Antitumour compounds from marine

actinomycetes. Mar. Drugs 7, 210–248.

Oldfield, C., Wood, NT., Gilbert, SC., Murray, FD. & Faure, FR. (1998).

Desulphurisation of benzothiophene and dibenzothiophene by actinomycete

organisms belonging to the genus Rhodococcus and related taxa. Antonie Van

Leeuwenhoek 74, 119–132.

Olson, GJ et al., (2004). Bioleaching review part B: Progress in bioleaching:

applications of microbial processes by the minerals industries. Applied

Microbiology and Biotechnology 63(3), 249-257.

Omura, S, Iwai, Y., Nakagawa, A., Iwata, R., Takahashi, Y., Shimizu, H. & Tanaka, H.

(1983). Thiotetromycin, a new antibiotic. Taxonomy, production, isolation and

physicochemical and biological properties. J. Antibiot (Tokyo) 36(2), 109–114.

Orth, P., Schnappinger, D., Hillen, W., Saenger, W. & Hinrichs, W. (2000). Structural

basis of gene regulation by the tetracycline inducible Tet repressor–operator

system. Nature Struct. Biol 215–219.

141

Oskay, M., Tamer, A.U. & Karaboz, I. (2010). Isolation and screening for antimicrobial activities of culturable mesophilic Streptomyces strains from

North Cyprus soils. Fresenius Environ. Bull 19, 154–163.

Oskay, M., Tamer, AU. & Azeri, C. (2004). Antibacterial activity of some

Actinomycetes isolated from farming soils of Turkey. African Journal of

Biotechnology 9, 441- 446.

Pape, H. & Rehm, HJ. (1985). Microbial Products. In: Rehm HJ, Reed G (eds)

Biotechnology. VCH 436-457.

Parajuli, N., Basnet, D. B., Lee, H. C., Sohng, J. K. & Liou, K. (2004). Genome

analyses of Streptomyces peucetius ATCC 27952 for the identification and

comparison of cytochrome P450 complement with other Streptomyces. Arch.

Biochem. Biophys 425(2), 233-241.

Parashar, U.K., Saxena, S.P. & Srivastava, A. (2009). Bioinspired synthesis of silver

nanoparticles. Digest journal of nanomaterials and biostructures 4(1), 159- 166.

Parjit Kaur. (1997). Expression and Characterization of DrrA and DrrB Proteins of Streptomyces peucetius in Escherichia coli: DrrA Is an ATP Binding Protein.

Journal of Bacteriology 569–575.

Park, HB., Yang, HO., Lee, KR. & Kwon, HC. (2011). Gombapyrones E and F, New

α-Pyrone Polyenes Produced by Streptomyces sp. KMC-002. Molecules 16,

3519-3529.

Pathomaree, W., Stach, JEM., Ward, AC., Horikoshi, K., Bull, AT. & Goodfellow, M.

(2006). Diversity of actinomycetes isolated from Challenger Deep sediment (10,

898 meter) from the Mariana Trench. Extremophiles 10, 181–189.

Patil, R., Jeyasekaran, G., Shanmugam, SA. & Jeya Shakila, R. (2001). Control of

bacterial pathogens, associated with fish diseases, by antagonistic marine

actinomycetes isolated from marine sediments. Indian J. Mar. Sci 30, 264–267.

Pecznska-Czoch, W. & Mordarski, M. (1988). Actinomycete enzymes. In: Goodfellow,

M., Williams, ST. & Mordarski, M. (eds) Actinomycetes in biotechnology.

Academic Press, London 219–283.

142

Peng Yao., Yang Jing-yu, Wu Chun-fu., Tian Wei. & Zhang Yi-xuan. (2009). Anti –

cancer mechanism of metabolites produced by Streptomyces capillispiralis 1070. Journal of Shenyang Pharmaceutical University 26 (06), 488-492.

Petrou, MA. & Shanson, DC. (2000). Susceptibility of Cryptococcus neoformans by

the NCCLS microdilution and E test methods using five defined media. J.

Antimicrob. Chemother 46, 815–818.

Petrova, D., Derekova, A. & Vlahov, S. (2006). Purification and properties of

individual collagenases from Streptomyces sp. Strain 3B. Folia Microbiol 51(2),

93-98.

Plater, R. & Robinson, J.A. (1992). Cloning and sequence of a gene encoding

macrotetrolide antibiotic resistance from Streptomyces griseus. Gene 112, 117–

122.

Prabhu, N., Divya, T.R. & Yamuna, G. (2010). Synthesis of silver phyto nanoparticles

and their antibacterial efficacy. Digest. J. Nanomater. Biostruct 5, 185-189.

Pridham, T. G. & Tresner, H.D. (1974). Streptomycetaceae, p. 747-845. In R. E.

Buchanan, R.E. and Gibbons, N.E (ed.), Bergey's manual of determinative bacteriology, 8th ed., The Williams & Wilkins Co., Baltimore.

Pridham, TG., Hesseltine, CW. & Benedict, RG. (1958). A guide for the classification

of Streptomycetes according to selected groups. Appl Microbiol 6, 52 - 79.

Rao, CNR. & Nath, M. (2003). Inorganic nanotubes. J. Chem. Soc. Dalton 11.

Rascher, A., Hu, Z., Viswanathan, N., Schirmer, A., Reid, R., Nierman, W.C., Lewis,

M. & Hutchinson, C.R. (2003). Cloning and characterization of a gene cluster

for geldanamycin production in Streptomyces hygroscopicus NRRL 3602.

FEMS Microbiol. Lett 218, 223-230.

Rath, JP., Kinast, S. & Maier, ME. (2005). Synthesis of the full functionalized core

structure of the antibiotic abyssomicin C. Org. Lett 7, 3089-3092.

Raut, RW., Kolekar, NS., Lakkakula, JR., Mendhulkar, VD. & Kashid, SB. (2010).

Extracellular synthesis of silver nanoparticles using dried leaves of Pongamia

pinnata (L) Pierre. Nano-Micro Lett 2, 106-113.

Raveendran, P., Fu, J. & Wallen, S.L. (2002). Completely “Green” Synthesis and

Stabilization of metal nanoparticles. Journal of American Chemical Society

125(46), 13940- 13941.

143

Reddy, N.G., Ramakrishna, D.P.N. & Gopal, S.V.R. (2011). A morphological,

physiological and biochemical studies of marine Streptomyces rochei (MTCC

10109) showing antagonistic activity against selective human pathogenic microorganisms. Asian J. Biol. Sci 4, 1–14.

Reddy, N.G., Ramakrishna, D.P.N. & RajaGopal, S.V. (2011). Asian J.Biol .Sci, 4(1),

1- 14. Ruiz, B., Chavez, A., Forero, A., Garci-Huante, Y., Romero, A., Sanchez,

M., Rocha, D., Sanchez, B., Rodriguez-Sanoja, R., Sanchez, S. and Langley, E.

(2010). Production of microbial secondary metabolites: Regulation by the

carbon source. Critical Rev. Microbiol 36, 146– 167.

Reese, RN. & Winge, DR. (1988). Sulfide stabilization of the cadmium–γ-glutamyl

peptide complex of Schizosaccharomyces pombe. J. Biol. Chem 263, 12832–

12835.

Reis, SA., Costa1, LV., Cavalcanti, EDC., Giambiagi-deMarval, M., Semedo, LTAS.,

Coelho, RRR., Moussatche, N. & Damaso, CRA. (2003). Protein synthesis

inhibitory activity in culture filtrates from new strains of Streptomyces isolated

from Brazilian tropical soils. Letters in Applied Microbiology 37, 138–143.

Rico Berger., Matthias Hoffmann. & Ullrich Keller. (1998). Molecular Analysis of a Gene Encoding a Cell-Bound Esterase from Streptomyces chrysomallus.

Journal of Bacteriology 6396–6399.

Riedlinger, J., Reicke, A., Zahner, H., Krismer, B., Bull, AT., Maldonado, LA., Ward,

AC., Goodfellow, M., Bister, B. & Bischoff, D. (2004). Abyssomicins

inhibitors of the para-aminobenzoic acid pathway produced by the marine

Verrucosispora strain AB-18-032. J. Antibiot (Tokyo) 57, 271-279.

Roberts, M.F. (2005). Organic compatible solutes of halotolerant and halophilic

microorganisms. Saline Systems 1-5.

Rodriguez, JC., Fernandez Puentes, JL., Perez Baz, J. & Canedo, LM. (2003). IB-

00208, a new cytotoxic polycyclic xanthone produced by a marine-derived

Actinomadura. II. Isolation, physico-chemical properties and structure

determination. J. Antibiot (Tokyo) 56, 318-321.

Roh, Y., Lauf, RJ., McMillan, AD., Zhang, C., Rawn, CJ., Bai, J. & Phelps, TJ. (2001).

Microbial synthesis and characterization of metalsubstituted magnetites. Solid State Commun 118, 529–534.

144

Rohwerder, T et al., (2004). Bioleaching review part A: Progress in bioleaching:

fundamentals and mechanisms of bacterial metal sulfide oxidation. Applied

Microbiology and Biotechnology 63(3), 239-248.

Sahar A. El-Shatoury et al., (2009). Effect of Streptomyces 23-2B metabolites on

hepatic lipid peroxidation and some antioxidant parameters in Wister rats.

World Journal of Microbiology and Biotechnology Vol. 26, No 12, 2185-2191.

Sakamoto, T. & Murata, N. (2002). Regulation of the desaturation of fatty acids and its

role in tolerance to cold and salt stress. Curr. Opin. Microbiol 5, 208– 210.

Sallam, L.A.R., El-Refai, A.F., Osman, M.E., Hamdy, A.A., Ahmed, E.M. &

Mohamed, M.A. (2010). Some Physiological Factors Affecting Rapamycin

Production by Streptomyces hygroscopicus ATCC 29253. J. American Sci 6,

188–194.

Sanchez, S., Chavez, A., Forero, A., Garcia-Huante, Y., Romero, A., Sanchez, M.,

Rocha, D., Sanchez, B., Avalos, M., Guzman-Trampe, S., Rodrıguez-Sanoja,

R., Langley, E. & Ruiz, B. (2010). Carbon source regulation of antibiotic

production. J. Antibiot 63, 442–459.

Sanchez Lopez, JM., Martinez Insua, M., Perez Baz, J., Fernandez Puentes, JL. &

Canedo Hernandez, LM. (2003). New Cytotoxic indolic metabolites from a

marine Streptomyces. J. Nat. Prod 66, 863-864.

Sarafeddinov, Alla., Atia Arif., Anna Peters. & Hans-Lothar Fuchsbauer. (2011). A

Novel Transglutaminase Substrate from Streptomyces mobaraensis Inhibiting

Papain-Like Cysteine Proteases. J. Microbiol. Biotechnol 21(6), 617–626.

Saravanana, M. & Nanda, A. (2010). Extracellular synthesis of silver bionanoparticles

from Aspergillus clavatus and its antimicrobial activity against MRSA and

MRSE. Colloid Surf. B 77, 214-218.

Sarkar, R., Kumbhakar, P. & Mitra, AK. (2010). Green synthesis of silver nanoparticles

and its optical properties. Digest J. Nanomater. Biostructures 5, 491-496.

Sastry M, Ahmad, A., Khan, MI. & Kumar, R. (2003). Biosynthesis of metal

nanoparticles using fungi and actinomycete. Curr. Sci 85, 162-170.

Satinder, K et al., (2006). Bioremediation of Hazardous Wastes—A Review. Practice Periodical of Hazardous, Toxic and Radioactive Waste Management 10(2), 59-

72.

145

Saxena, A., Tripathi, R.M. & Singh R.P. (2010). Biological Synthesis of silver

nanoparticles by using Onion (Allium cepa) extract and their antibacterial

activity. Digest. J. Nanomater. Biostruct 5, 427-432.

Say, R., Denizlib, A. & Aric, MY. (2001). Biosorption of cadmium (II), lead(II) and

copper(II) with the filamentous fungus Phanerochaete chrysosporium.

Bioresour. Technol 76, 67-70.

Schatz, A. & Waksman, SA. (1945). Strain variation and production of antibiotic

substances. IV. Variations among actinomycetes with special reference to

Actinomyces griseus. Proc.Nat. Acad. Sci 31, 129-137.

Schillinger, U. & Lucke, F. (1989). Antomicrobial activity of Lactobacillus sake isolate

from meat. Applied Environ Microbiol 55, 1901-1906.

Schrelber, WE. & Whitta, L. (2011). Precipitation of serum proteins by the lectin from

wheat-germ. Clin. Chem 33,185-186.

Schumacher, RW., Talmage, SC., Miller, SA., Sarris, KE., Davidson, BS. & Goldberg,

A. (2003). Isolation and structure determination of an antimicrobial ester from a

marine-derived bacterium. J. Nat. Prod 66, 1291-1293.

Seizo Sato., Fumie Iwata., Shoichi Yamada. & Hiroyuki Kawahara. (2011). 3,6,7-tri-

epi- invictolide, a diastereomer of queen recognition pheromone and its analog

from a marine- derived actinomycete. The Journal of Antibiotics 64, 385-389.

Senapati, S et al., (2005). Extracellular Biosynthesis of Bimetallic Au-Ag Alloy

Nanoparticles. Small 1(5), 517–520.

Shchukin, DG., Radtchenko, IL. & Sukhorukov, GB. (2003). Photoinduced Reduction

of Silver inside Microscale Polyelectrolyte Capsules. Chem. Phys. Chem 4,

1101-1103.

Sheila Marie, PE. (2011). Anti-Parasitic Compounds from Streptomyces sp. Strains

isolated from Mediterranean Sponges. Mar. Drugs 8(2), 373-380.

Sheldon, P. J., Busarow, S.B., & Hutchinson, C.R. (2002). Mapping the DNA-binding

domain and target sequences of the Streptomyces peucetius daunorubicin

biosynthesis regulatory protein, DnrI. Mol. Microbiol 44, 449-460.

Shimizu M., Nakagawa Y., Sato Y., Furumai T., Igarashi, Y., Onaka H., Yoshida R. &

Kunoh, H. (2000). Studies on endophytic actinomycetes. (I) Streptomyces sp.

146

isolated from Rhododendron and its antifungal activity. J. Gen. Plant Pathol 66,

360-366.

Shin, J., Seo, Y., Lee, HS., Rho, JR. & Mo, SJ. (2003). A new cyclic peptide from a

marine derived bacterium of the genus Nocardiopsis. J. Nat. Prod 66, 883-884.

Shinobu, R. (1958). Physiological and cultural study for the identification of soil

actinomycetes species. Mem. Osaka Univ. Lib. Arts and Ed. 7B, 1-76.

Shipley, PR., Donnelly, CC., Le, CH., Bernauer, AD. & Klegeris, A. (2009). Antitumor

activity of asukamycin, a secondary metabolite from the actinomycete

bacterium Streptomyces nodosus subsp. asukaensis. Int. J. Mol. Med 24(5),

711–715.

Shipway, AN, Katz, E. & Willner, I. (2000). Nanoparticle arrays on surfaces for

electronic, optical and sensoric applications. Chem.Phys.Chem 1, 18-52.

Shirling, EB. & Gottlieb, D. (1966). Methods for characterization of Streptomyces

species. Int. J. Syst. Bacteriol 16, 313-340.

Sibanda, T., Mabinya, L.V., Mazomba, N., Akinpelu, D.A., Bernard, K., Olaniran,

A.O. & Okoh, A.I. (2010). Antibiotic Producing Potentials of Three Freshwater Actinomycetes Isolated from the Eastern Cape Province of South Africa. Int. J.

Mol. Sci 11, 2612–2623.

Singh, M., Manikandam, S. & Kumaraguru, A.K. (2011). Research Journal of

Nanoscience and Nanotechnology 1(1), 1-11.

Silver, S. (2003). Bacterial silver resistance: molecular biology and uses and misuses of

silver compounds. FEMS Microbiol. Rev 27, 341-353.

Silvert, PY., Vijayakrishnan, V., Vibert, P., Herrara-Urbina, R. & Elhsissen, KT.

(1996). Synthesis and characterization of nanoscale Ag-Pd alloy particles.

Nanostruct. Mater 7, 611– 618.

Sommer, PS., Almeida, RC., Schneider, K., Beil, W., Süssmuth, RD. & Fiedler, HP.

(2008). Nataxazole, a new benzoxazole derivative with antitumor activity

produced by Streptomyces sp. Tu 6176. J. Antibiot 61, 683–686.

Soria-Mercado, IE., Prieto-Davo, A., Jensen, PR. & Fenical, W. (2005). Antibiotic terpenoid chloro-dihydroquinones from a new marine actinomycete. J. Nat.

Prod 68, 904-910.

147

Southam, G. & Beveridge, TJ. (1996). The occurrence of sulfur and phosphorus within

bacterially derived crystalline and pseudocrystalline octahedral gold formed in

vitro. Geochim. Cosmochim. Acta 60, 4369–4376.

Southam, G. & Beveridge, TJ. (1994). The in vitro formation of placer gold by bacteria.

Geochim. Cosmochim. Acta 58, 4527–4530.

Stach, JEM., Maldonado, LA., Ward, AC., Goodfellow, M. & Bull, AT. (2003).

Environ. Microbiol 5, 828-841.

Stackebrandt, E., Rainey, FA. & Ward-Raine, NL. (1997). Proposal for a new

hierarchic classification system, Actinobacteria classis nov. Int. J. Syst.

Bacteriol 47, 479–491.

Stackebrandt, SP. (2000). The prokaryotes: an evolving electronic resource for the

microbiological community. Springer, New York.

Stefan Walter., Egbert Wellmann. & Hildgund Schrempf. (1998). The Cell Wall-

Anchored Streptomyces reticuli Avicel-Binding Protein (AbpS) and Its Gene.

Journal of Bacteriology 1647–1654.

Stritzke, K., Schulz., Laatsch, H., Helmke, E. & Beil, W. (2004). Novel caprolactones from a marine streptomycete. J. Nat. Prod 67, 395-401.

Strohl, WR. (2004). Antimicrobials. In: Bull AT (ed) Microbial diversity and

bioprospecting. ASM Press, Washington, 336–355.

Suthindhiran., K., Sarath Babu., V., Kannabiran, K., Ishaq Ahmed, V.P. & Sahul

Hameed, A.S. (2011). Anti-fish nodaviral activity of furan-2-yl acetate

extracted from marine Streptomyces spp. Vol. 25, Issue 8, 834-843.

Suthindhiran, K. & Kannabiran, K. (2009). Cytotoxic and Antimicrobial Potential of

Actinomycete Species Saccharopolyspora salina VITSDK4 isolated from the

Bay of Bengal Coast of India. American Journal of Infectious Diseases 5, 90-

98.

Swaadoun, I., Hameed, KM. & Moussauui, A. (1999). Characterization and analysis of

antibiotic activity of some aquatic Actinomycetes. Microbios 99, 173-179.

Syed.G. Dastager, Jae-Chan Lee, Yoon-Jung Ju, Dong-Jin Park & Chang-Jin Kim. (2008). Nocardioides islandiensis sp. nov., isolated from soil in Bigeum Island

Korea. Antonie van Leeuwenhoek 93, 401-406.

148

Syed.G. Dastager, Jae-Chan Lee, Yoon-Jung Ju, Dong-Jin Park & Chang-Jin Kim.

(2008). Nocardioides koreensis sp. nov., Nocardioides bigeumensis sp. nov. and

Nocardioides agariphilus sp. nov., isolated from soil from Bigeum Island, Korea. Int. J. Syst. Evol. Microbiol 58(10), 2292-2296.

Syed.G. Dastager, Lee, JC., Ju, YJ., Park, DJ. & Kim, C.J. (2008). Frigoribacterium

mesophilum sp. nov., a mesophilic actinobacterium isolated from Bigeum

Island, Korea. Int. J. Syst. Evol. Microbiol 58(8), 1869-1872.

Syed.G. Dastager, Lee, JC., Ju, YJ., Park, DJ. & Kim, C.J. (2008). Nocardioides

halotolerans sp. nov., isolated from soil on Bigeum Island, Korea. Syst. Appl.

Microbiol 31(3), 24-29.

Syed.G. Dastager, Lee, JC., Ju, YJ., Park, DJ. & Kim, C.J. (2008). Leifsonia

bigeumensis sp. nov., isolated from soil on Bigeum Island, Korea. Int. J. Syst.

Evol Microbiol 58(8), 1935-1938.

Syed.G. Dastager, Lee, JC., Ju, YJ., Park, DJ. & Kim, C.J. (2008).

Phycicoccusbigeumensis sp. nov., a mesophilic actinobacterium isolated from

Bigeum Island, Korea. Int. J. Syst. Evol. Microbiol 58(10), 2425-2428.

Syed.G. Dastager, Lee, JC., Ju, YJ., Park, DJ. & Kim, C.J. (2008). Nocardioides dilutes

sp. nov., isolated from soil in Bigeum island, Korea. Current Microbiol 56, 569-

573.

Takahashi, M., Tezuka, T. & Katunuma, N. (1994). Inhibition of growth and cysteine

proteinase activity of Staphylococcus aureus V8 by phosphorylated cystatin

alpha in skin cornified envelope. FEBS Lett 355, 275–278.

Takahiro Kaneko., Toshihisa Ohno. & Naganori ohisa. (2005). Purification and

characterization of a raw starch digesting amylase from a Streptomyces sp.

Isolated from a Milling factory. Biosci, Biotech, Biochem (69)6, 1073-1081.

Takizawa, M., Colwell, R.R. & Hill, R.T. (1993). Isolation and diversity of

actinomycetes in the Chesapeake Bay. Applied and Environmental

Microbiology 59, 997–1002.

Thumar, J.T., Dhulia, K & Singh, S.P. (2010). Isolation and partial purification of an

antimicrobial agent from halotolerant alkaliphilic Streptomyces aburaviensis strain Kut-8. World J. Microbiol. Biotechnol 26, 2081–2087.

149

Triana-Baltzer, GB., Babizki, M., Chan, MC., Wong, AC., Aschenbrenner, LM.,

Campbell, ER., Li, QX., Chan, RW., Peiris, JS. & Nicholls, JM et al., (2010).

DAS181, a sialidase fusion protein, protects human airway epithelium against influenza virus infection: an in vitro pharmacodynamic analysis. J. Antimicrob.

Chemother 65, 275-284.

Treguer, M., De Cointet, C., Remita, H., Khatouri, J., Mostafavi, M., Amblard, J.,

Mostafavi, M., Amblard, J., Belloni, J. & De Keyzer, R. (1998). Dose rate

effects on radiolytic synthesis of goldsilver bimetallic clusters in solution. J.

Phys. Chem B 102, 4310–4321.

Tresner, HD., Hayes, JA. & Backns, EJ. (1968). Differential tolerance of Streptomyces

to sodium chloride as a taxonomic aid. Appl. Microbiol 16, 1134- 1136.

Vahabi, K., Mansoori, G.A. & Karimi, S. (2011). Insciences J., 1(1), 65-79.

Vaishnav. P. & Demain, A.L. (2011).“Unexpected applications of secondary

metabolites”. Biotechnology Advances Vol. 29, No. 2, 223–229.

Vasavada, SH., Thumar, JT. & Singh, SP. (2006). Secretion of a potent antibiotic by

salt – tolerent and alkaliphilic actinomycete Streptomyces sannanensis strain RJT-1. Curr. Sci 91, 1393-1397.

Vedpriya. (2010). “Living Systems: eco-friendly nanofactories,” Digest Journal of

Nanomaterials and Biostructures Vol. 5, No. 1, 9–21.

Verma, VC., Kharwar, RN. & Gange, AC. (2009). Biosynthesis of nobel metal

nanoparticle and their application.CAB review; prospective in agriculture

vetenary science. Nutr. Nat. Resour 4-1.

Verma, V.C., Singh, S.K., Solanki, R. & Prakash, S. (2011). Nanoscale Res. Lett 6, 16.

Vigneshwaran, N., Ashtaputre, NM., Varadarajan, PV., Nachane, RP., Paralikar, KM.

& Balasubramanya, RH. (2007). Biological silver nanoparticles using the

fungus Aspergillus flavus. Mater. Lett 61, 1413-1418.

Vino, S. & Lokesh, KR. (2008). Borrelidin: A promising anticancer agent from

Streptomyces species, Advanced Biotech, review.

Vinodgopal, K., He, Y., Ashokkumar, M. & Grieser, F. (2006). Sonochemically prepared platinum-ruthenium bimetallic nanoparticles. J. Phys. Chem B 110,

3849–3852.

150

Waditee, R., Hibino, T., Nakamura, T., Incharoensakdi, A. & Takabe, T. (2002).

Overexpression of a Na+/H+ antiporter confers salt tolerance on a freshwater

cyanobacterium, making it capable of growth in sea water. Proc. Natl. Acad. Sci 99, 4109–4114.

Wang, X., Huang, L., Kang, Z., Buchenauer, H. & Gao, X. (2010). Optimization of the

Fermentation Process of Actinomycete Strain Hhs.015T. J. Biomed.

Biotechnol., doi:10.1155/2010/141876.

Waksman, SA. (1957). Family III. Streptomycetaceae Waksman & Hcnricl.Dl dalam:

Breed RS, Murray EGD, Smith NR ed. Bergey`S Manual of Determinative

Bacteriology 7' ed. Baltimore: WIHiams & Wilkins, 744-825.

Waksman, SA. (1961). The actinomycetes, Vol. 2, The Williams & Wilkins Co.,

Baltimore.

Waksman, SA. & Curtis, R. E. (1918). The occurrence of actinomycetes in the soil. Soil

Sci 6, 309-319.

Waksman, SA. (1957). Species concept among the actinomycetes with special

reference to the genus Streptomyces. Bacteriol. Rev 21, 1-29.

Waksman, SA. (1959). The actinomycetes, Vol. 1, The Williams & Wilkins Co.,

Baltimore.

Waksman, SA. (1961). The Actinomyceles. Classification, ldenstification and

descriptions of genera and species. Vol. 2, Baltimore, Williams & Wilkins.

Ward, AC. & Bora, N. (2006). Diversity and biogeography of marine actinobacteria.

Curr. Opin. Microbiol 9, 279–286.

Warisnoicharoen W, Hongpiticharoen P & Lawanprasert, S. (2010). Alternation in

Enzymatic function of Human cytochrome P450 by silver against clinically

isolated organism. De. Phar.Chem 2, 279-284.

Watve, MG., Tickoo, R., Jog, MM. & Bhole, BD. (2001). Howmany antibiotics are

produced by the genus Streptomyces. Arch. Microbiol 176, 386–390.

Weisburg, WG., Barns, SM., Pelletier, DA. & Lane, DJ. (1991). 16S Ribosomal DNA

amplification for phylogenetic study. J. Bacteriol 173, 697–703.

Wen Liu. & Ben Sheni. (2000). Genes for Production of the Enediyne Antitumor

Antibiotic C-1027 in Streptomyces globisporus Are Clustered with the cagA

151

Gene That Encodes the C-1027 Apoprotein. Antimicrobial agents and

Chemotherapy 382–392.

White, C., Sayer, JA. & Gadd, GM. (1997). Microbial solubilisation and

immobilization of toxic metals: key biogeochemical processes for treatment of

contamination. FEMS Microbiol. Rev 20, 503–516.

White, C., Sharman, AK. & Gadd, GM. (1998). An integrated microbial process for the

bioremediation of soil contaminated with toxic metals. Nat. Biotechnol 16, 572–

575.

Whitehead, R. (1999). Natural product chemistry. Annu. Rep. Prog. Chem. Sec B 95,

183-205.

Williams, PG., Miller, E.D., Asolkar, R.N., Jensen, P.R. & Fenical, W. (2007).

Arenicolides A- C, 26- membered ring macrolides from the marine

actinomycete Salinispora arenicola. J. Org. Chem 72, 5025-5034.

Williams, ST., Goodfellow, M. & Alderson, G. (1989). Genus Streptomyces Waksman

and Henrici 1943, 339AL. In Bergey's Manual of Systematic Bacteriology 4,

2452–2492.

Wilson, K. (1990). Preparation of genomic DNA from bacteria. In: Current protocols

in molecular biology (Ausubel FM and Brent R, eds.). Greene. Publ. Assoc. and

Wiley Interscience, New York, 241-245.

Woese, C. R. (1987). Bacterial evolution. Microbiol. Rev 51, 221-271.

Wu, RY. & Chen, MH. (1995). Identification of the Streptomyces strain KS3-5. Bot.

Bull Acad. Sin 36, 201-205.

Wu, SJ., Fotso, S., Li, F., Qin, S. & Laatsch, H. (2007). Amorphane sesquiterpenes

from a marine Streptomyces sp. J. Nat. Prod 70, 304–306.

Xiaopeng, Wu., Huiqin Huang., Guangying Chen., Qianguang Sun., Jie Peng., Jun Zhu.

& Shixiang Bao. (2009). A novel antibiotic produced by Streptomyces noursei

Da07210, Antonie van Leeuwenhoek Vol. 96, No. 1, 109-112.

Xiang-Jing Wang., Zhi-Dan Xiang., Dian-Liang Gong., Ji-Dong Wang., Chong-Xi Liu.,

Zhao-Xiang Zhu., Yi-Jun Yan. & Wen-Sheng Xiang. (2011). A new okicenone analog from Streptomyces sp. NEAU-W13. The Journal of Antibiotics 64, 459-

460.

152

Xiaopeng Wu., Huiqin Huang., Guangying Chen., Qianguang Sun., Jie Peng., Jun Zhu. & Shixiang Bao. (2009). A novel antibiotic produced by streptomyces noursei.

Antonie van Leeuwenhoek Vol. 96, 109-112.

Xu, Z.P., Zeng, Q.H., Lu, G.Q. & Yu, A.B. (2006). Inorganic nanoparticles as carriers

for efficient cellular delivery. Chemical Engineering Science 61, 1027- 1040.

Yao, P., Jing-yu, Y., Chun-fu, WU., Wei, T. & Yi-xuan, Z. (2009). Anti-cancer

mechanism of metabolites produced by Streptomyces capillispiralis 1070.

Journal of Shenyang Pharmaceutical University 2009-06.

Ye, L., Zhou, Q., Liu, C., Luo, X., Na, G. & Xi, T. (2009). Identification and

fermentation optimization of a marine derived Streptomyces griseorubens with

anti-tumour activity. Indian J. Mar Sci 38, 14–21.

Ye, R., Wright, A.L., Inglett, K., Wang, Y., Ogram, A.V. & Reddy, K.R. (2009). L

and-use effects on soil nutrient cycling and microbial community dynamics in

the Everglades Agricultural Area, Florida. Commun. Soil Sci. Plant Anal 40,

2725-2742.

Yokota, A. (1997). Phylogenetic relationship of actinomycetes. Atlas of actinomycetes,

Asakura Publishing Co. Ltd., Japan, 194 – 197.

Yonezawa, T. & Toshima, N. (1995). Mechanistic consideration of formation of

polymer-protected nanoscopic bimetallic clusters. J. Chem. Soc. Faraday. Trans

91, 4111–4119.

Yong, P., Rowsen, NA., Farr, JPG., Harris, IR. & Macaskie, LE. (2002). Bioreduction

and biocrystallization of palladium by Desulfovibrio desulfuricans NCIMB.

Biotechnol. Bioeng 80, 369-379.

Yoshida, A., Seo, Y., Suzuki, S., Nishino, T., Kobayashi, T., Hamada-Sato, N., Kogure,

K. & Imada, C. (2008). Actinomycetal community structures in seawater and

freshwater examined by DGGE analysis of 16S rRNA gene fragments. Mar.

Biotechnol 10, 554–563.

Yousry Gohari., Usama Beshay., Ayman Daba. & Elsyed Hafez. (2006). Bioactive

compounds from Streptomyces nasri and its mutants with special reference to Proteopolysaccharides. Polish journal of Microbiology Vol. 55, No. 3, 179-187.

153

Yuki Inahashi., Masato Iwatsuki., Aki Ishiyama., Miyuki Namatame., Aki Nishihara-

Tsukashima., Atsuko Matsumoto., Tomoyasu Hirose., Toshiaki Sunazuka.,

Haruki Yamada., Kazuhiko Otoguro., Yoko Takahashi., Satoshi Omura. & Kazuro Shiomi. (2011). Spoxazomicins A–C, novel antitrypanosomal alkaloids

produced by an endophytic actinomycete, Streptosporangium oxazolinicum

K07-0460. The Journal of Antibiotics 64, 303-307.

Zhang, C., Vali, H., Romanek, CS., Phelps, TJ. & Liu, SV. (1998). Formation of

single-domain magnetite by a thermophilic bacterium. Am. Mineral 83, 1409–

1418.

Zhang, JP., Sheng, LQ. & Chen, P. (2003). Synthesis of various types of silver

nanoparticles used as physical developing nuclei in photographic science. Chin.

Chem. Lett 14, 645-648.

Zhang, YH., Chen, F., Zhuang, JH., Tang, Y., Wang, DJ., Wang, YJ., Dong, AG. &

Ren, N. (2002). Synthesis of silver nanoparticles via electrochemical reduction

on compact zeolite film modified electrodes. Chem. Commun 2814-2815.

Zhao, G. & Stevens Jr, SE. (1998). Multiple parameters for the comprehensive

evaluation of the susceptibility of Escherichia coli to the silver ion. Biometals 11, 27 - 32.

Zuleta, L.F.G., Italiani, V.C.S. & Marques, M.V. (2003). Isolation and characterization

of NaCl- sensitive mutants of Caulobacter crescentus. Appl. Environ. Microbiol

69, 3029–3035.