dna, rna, and protein synthesis. molecular structure of dna chromosomes contain both nucleic acid...
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DNA, RNA, and Protein Synthesis
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Molecular structure of DNAChromosomes contain both nucleic acid and
protein.There are two types of nucleic acid, DNA and
RNA.Nucleic acid is a polymer of nucleotides, each
comprised of a ribose sugar, a phosphate group and a nitrogen containing base.
There are two types of bases, Purines and Pyrimidines.
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In the 1920s, Frederick Griffith performed experiments with two strains of the bacterium Streptococcus pneumoniae.
A biological assay implicates DNA as the primary genetic molecule.
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In 1952, Alfred D. Hershey and Martha Chase confirmed DNA is the genetic material
T2 bacteriophage (virus that attacks bacteria) consists of DNA core packed in protein coat
Phage DNA alone carries genetic information
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A DNA nucleotide
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Individual nucleotides of DNA are linked by phosphodiester bonds.
This sugar-phosphate chain forms the “backbone” of the DNA molecule.
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In the 1950s, chemists Rosalind Franklin and Maurice Wilkins provided key information about DNA structure using X-ray crystallography
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Erwin Chargaff noted that A = T, and G = C
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James D. Watson and Francis Crick established the general structure of DNA in 1953
X-ray crystallography convinced them that the DNA molecule was helical, with certain dimensions.
Other evidence for two polynucleotide chains running antiparallel to each other
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Key features of DNA:– double-stranded helix
– diameter is uniform
– the twist is right-handed
– antiparallel strands – two strands run in different directions
– Semiconservative replication uses each parent strand as template for new strand
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The Meselson – Stahl experiment demonstrating replication is semi-conservative using density labeling.
DNA Replication
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DNA replication is carried out by a highly complex assembly of proteins
Helicase
Single-strand binding proteinsPrimase
DNA Polymerase III
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When DNA polymerase III reaches previous Okazaki fragment, it is released
DNA polymerase I replaces the primer of previous Okazaki fragment with DNA, but leaving a small “nick”
Finally, DNA ligase catalyzes formation of the phosphodiester linkage that joins the two Okazaki fragments
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Denature and Renature of DNADNA double helix is stabilized by numerous
hydrogen bonds between complimentary base pairs.
DNA is denatured or melt if exposed to high temperature or extreme of pH.
The melting temperature (Tm) is the temperature at which half of the DNA molecules in a sample have been denatured.
Double helices with an access of G:C base pairs are more stable and have higher Tm than helices in which A:T base pairs predominate.
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Annealing or hybridization is an essential and powerful tool
Labeled DNA fragment can be used as a probe to find its complement, even in a whole genome.
The gene of interest can be identified and isolate from DNA library.
Specific primers can be designed to amplify the gene of interest in polymerase chain reaction.
By observing the extent of annealing between DNA strands in solution, researchers can determine the degree of similarity between DNA molecules from different species.
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Gene expression takes place in two steps:
Transcription – makes single-stranded RNA copy of a DNA segment
Translation – uses information encoded in RNA to make a polypeptide
http://www.anselm.edu/homepage/jpitocch/genbio/transcrtransl.JPG
Decoding Genetic Information: DNA to RNA to Protein
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In normal prokaryotic and eukaryotic cells, transcription requires:
DNA template for complementary base pairing
appropriate ribonucleoside triphosphates (ATP, GTP, CTP, and UTP) to act as substrates
RNA polymerase enzyme
http://www.brooklyn.cuny.edu/bc/ahp/BioInfo/graphics/Transcription.01.GIF
Transcription
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In prokaryotes, translation of mRNA often begins before transcription is complete
http://www.phschool.com/science/biology_place/biocoach/images/transcription
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Figure 14.2 From Gene to Protein
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Each eukaryote gene has one promoter to which RNA polymerase binds, with the help of other molecules.
At the other end of the gene there is a terminator sequence to signal end of transcription.
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Transcription
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In the nucleus, pre-mRNA is modified at both ends:
G cap is added at the 5′ end (modified guanosine triphosphate)—facilitates mRNA binding to ribosome.
G cap protects mRNA from being digested by ribonucleases.
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Poly A tail added at 3′ end.
AAUAAA sequence after last codon is a signal for an enzyme to cut the pre-mRNA; then another enzyme adds 100 to 300 adenines—the “tail.”
May assist in export from nucleus; important for stability of mRNA.
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Eukaryotic genes may have noncoding sequences—introns.
The coding sequences are exons.
Introns and exons appear in the primary mRNA transcript—pre-mRNA; introns are removed from the final mRNA.
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Introns interrupt, but do not scramble, the DNA sequence that encodes a polypeptide.
Sometimes, the separated exons code for different domains (functional regions) of the protein.
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Intron Splicing
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Alternative Splicing
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Francis Crick’s central dogma stated that information flow is: DNA codes for RNA, and RNA codes for protein
Transcription Translation
Replication
Decoding Genetic Information: DNA to RNA to Protein
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Exception to the central dogma:
Viruses: Non-cellular particles that reproduce inside cells; many have RNA instead of DNA.
Viruses can replicate by transcribing from RNA to RNA, and then making multiple copies by transcription.
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Other viruses such as HIV are retroviruses.
After infecting a host cell a copy of the viral genome is incorporated into the host’s genome to make more RNA.
Synthesis of DNA from RNA is reverse transcription.
http://www.brown.edu/Courses/Bio_160/Projects1999/hiv/images/Virion2.jpg
HIV, a retrovirus
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TranslationConcurrent transcription and translation in prokaryotes.
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TranslationTranscription and translation are spatially separated in eukaryotes.
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RNA (ribonucleic acid) differs from DNA:
Usually one polynucleotide strand
The sugar is ribose
Contains uracil (U) instead of thymine (T)
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Bases in RNA can pair with a single strand of DNA, except that adenine pairs with uracil instead of thymine.
Single-strand RNA can fold into complex shapes by internal base pairing.
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Three kinds of RNA in protein synthesis:Messenger RNA (mRNA)—carries copy of a
DNA sequence to site of protein synthesis at the ribosome
Transfer RNA (tRNA)—carries amino acids for polypeptide assembly
Ribosomal RNA (rRNA)—catalyzes peptide bonds and provides structure
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Messenger RNA (mRNA) Produced by transcription as a
complementary copy of DNAmoves from nucleus of
eukaryotic cells into cytoplasmserves as template for protein
synthesis
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tRNA – the “adapter” moleculerequired to assure specificity in translation of mRNA into
proteinstRNAs must read mRNA correctlySpecific tRNAs must carry correct amino acids
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tRNAs are “adapters”link a specific codon with
specific amino acid
tRNA has three functions:
carries an amino acid
associates with mRNA molecules
interacts with ribosomes
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Amino acid binding site at 3’ end of every tRNA (for covalently binding a specific amino acid)
Anticodon On other side of the molecule three bases which are complementary
to appropriate codon The codon and anticodon unite by
complementary base pairing.
http://www.wiley.com/legacy/college/boyer/0470003790/structure/tRNA/trna_diagram.gif
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WobbleSpecificity for base at codon’s third
position is not always observed Ex: codons for alanine — GCA, GCC,
and GCU — are recognized by the same tRNA
Allows cells to produce fewer tRNA species; but not in all cases — the genetic code remains unambiguous
http://www.wiley.com/legacy/college/boyer/0470003790/structure/tRNA/trna_diagram.gif
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Aminoacyl-tRNA synthetases Attaches amino acids to tRNAsTheir three-part active sites bind:
a specific amino acid ATP a specific tRNA, charged with a high-energy bond
High-energy bond provides energy for making a peptide bond
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Translation also occurs in three steps:
InitiationElongationTermination
http://srv2.lycoming.edu/~newman/courses/bio43704/ribosome/ribosome1.jpg
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InitiationStart codon (AUG)
designates first amino acid (methionine) in all proteins
Large subunit then joins complex with tRNA at P-site, all guided by initiation factors
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InitiationThe mRNA binds to the small
ribosomal subunit.The Shine-Dalgarno
sequence near the 5’ end of the mRNA base pairs with a sequence near the 3’ end of the rRNA of the small ribosomal subunit.
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Elongation: The second charged tRNA enters the A site.
Large subunit catalyzes two reactions:It breaks bond between tRNA in P site and its
amino acidPeptide bond forms between that amino acid
and the amino acid on tRNA in the A siteWhen the first tRNA has released its methionine,
it moves to the E site and dissociates from the ribosome—can then become charged again.
Elongation occurs as the steps are repeated, assisted by proteins called elongation factors.
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TerminationWhen stop codon is
reached…Release factor and a
water molecule enter A site, instead of an amino acid
Newly completed protein separates from ribosome, and subunits separate
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Protein modifications:Proteolysis: Cutting of a long polypeptide
chain into final products, by proteasesGlycosylation: Addition of sugars to form
glycoproteinsPhosphorylation: Addition of phosphate
groups catalyzed by protein kinases— charged phosphate groups change the conformation
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High accuracy of protein synthesis
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Mutation Results in Mutant Proteins
The genetic disease, sickle-cell anemia, caused by mutant proteins with single amino acid replacement. A single amino acid change in such a large complex hemoglobin could produce profound changes in activity.
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Control of Gene Expression
Cells conserve energy and resources by making proteins only when needed.
Intricate molecular mechanisms must exist in cells to control the numbers of their many proteins.
There are three ways that might achieve this differential synthesis: transcriptional control, translational control, and post-transcriptional control.
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Cells regulate protein synthesis at any of four pointsControlling the rate of mRNA synthesisThe stability of mRNAsChanging the rate of protein synthesisThe stability of proteins
Control of Gene Expression
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Cells regulate protein synthesis by several methods:Block transcription of the gene Hydrolyze the mRNA after it is madePrevent translation of mRNA at the ribosomeHydrolyze the protein after it is madeInhibit the function of the protein
Control of Gene Expression
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Positive regulation Gene is not normally transcribed (usually “off”)Activator protein binds to stimulate transcription
Regulation of mRNA Transcription
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One of two types of regulatory protein binds to promoter :Negative regulation
Gene is normally transcribed (usually “on”) Binding of a repressor protein prevents
transcription
Regulation of mRNA Transcription
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E. coli prefers glucose as an energy source, but can use lactose if glucose is low.
3 enzymes are required for lactose metabolism
presence of lactose stimulates production of these enzymes
lactose is an inducer
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E. coli
Regulation of mRNA Transcription
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• enzymes that are produced in the presence of an inducer are said to be inducible
• enzymes that are made all the time are said to be constitutive
E. coli
Regulation of mRNA Transcription
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Operon is the whole unitpromoter, operator, and one or more structural
genesOperon containing genes for lactose metabolism:
lac operon
Regulation of mRNA Transcription
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Structural genes specify primary protein structure — the amino acid sequenceThe three structural genes for lactose enzymes are
adjacent on chromosome They share a promoter, and are transcribed together
Regulation of mRNA Transcription
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Prokaryotes shut down transcription by placing obstacle between promoter and structural genea protein called a repressor bind to operator—
blocks transcription of mRNA
Regulation of mRNA Transcription
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Regulation of lac Operon
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A repressor protein is coded by a regulatory gene.The regulatory gene that codes for the lac repressor is
the i (inducibility) gene
i gene is near lac structural genes, but not all regulatory genes are near their operons
Regulation of lac Operon
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Regulatory genes like i have their own promoter, called pi
The i gene is expressed constitutively (expression is constant).
Regulation of lac Operon
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The repressor protein has two binding sitesone for the operatorone for inducer (lactose)
Operator binding site
Regulation of lac Operon
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Binding inducer to repressor, changes repressor shape allows promoter to bind RNA polymeraseWhen lactose concentration drops, inducers separate
from repressors — repressor again binds operator, transcriptions stops
Regulation of lac Operon
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• Promoter is the specific region of the DNA that bound to RNA polymerase for efficient transcription.• Two highly conserved, separate nucleotide blocks make up the promoter of the E. coli lac operon.• These blocked are designated -10 and -35 upstream of the mRNA start site +1.•Mutations in these regions have mild and severe effects on transcription.
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The sequences required for RNA polymerase binding and initiation are contained within less than 40 nucleotides.The initial step is the recognition and binding of an
RNA polymerase to the -35 region.Subsequently, the -10 region melts into its
component single strands allowing transcription to begin at +1 position.
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Bacterial RNA polymerase core complexes are bound by a single initiation factor σ (sigma).
E coli can control gene expression by activation of σ factor in response to stimuli.σ 70 is the most common initiation factor in E. coli genome
that binds to many other promoters besides lac promoter.σ 32 is activated in response to “heat shock” and directs
polymerase to transcribe specific genes to respond to this stress.
σ 54 is activated when cells are starved for nitrogen, turning on genes that are responsible for uptake of nitrogen.
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Sigma factors produced by E. coli
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Genes are activated when transcription factors bind specific DNA sequences near promoterIf both glucose and lactose
are present, E. coli will first use glucose.
Presence of glucose lowers concentration of cAMP
thus less CRP binding to promoter, resulting in less efficient transcription of lactose-metabolizing enzymes
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When glucose is used up, starvation signals accumulate in the cell, and trigger an activation of lac operon.lac operon can increase efficiency
of the promoterA regulatory protein CRP binds
cAMP This complex binds to DNA just
upstream of promoter. Allows more efficient binding of
RNA polymerase to promoter
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A protein is repressible if synthesis can be turned off by a biochemical cue (e.g., ample supply of that protein)The trp operon controls
synthesis of tryptophan — it is a repressible system
Gene is normally “on”, transcribing mRNA and synthesizing structural proteins
Regulation of trp Operon
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The repressor must first bind with a corepressor, in this case tryptophan (when its abundant), activating repressor
Active repressor turns gene “off”, blocking transcription
Regulation of trp Operon
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Inducible systems (lac operon) Substrate of a metabolic
pathway (inducer) interacts with a regulatory protein (repressor) — repressor cannot bind to operator —allowing transcription
Control catabolic pathways (turned on when substrate, lactose, is present)
lac Operon VS trp Operon
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Repressible system (trp operon)Product of a metabolic pathway
(corepressor) interacts with a regulatory protein (repressor) allowing it to bind to operator, blocking transcription
Control anabolic pathways (turned on when product, tryptophan, is not present).
lac Operon VS trp Operon
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The Attenuation in trp operon
• Attenuation is a method of regulating transcription by preventing complete mRNA synthesis.– The 5’ end of trp operon mRNA, the leader region (region 1) is rich in
tryptophan codon.– When tryptophan is available, the translation of this region occurs.– As this happens, the trp mRNA forms a stem-loop structure between
region 3 and 4, transcription is attenuated.– When the tryptophan level drops, the attenuation is relieved.– The ribosome is stalled at the leader sequence, different stem-loop
forms (2 and 3), allows the transcription to continue.
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