Biology I-unit 3: ch 10
In step __ in the elongation stage of translation binding occurs due to codon/anticodon recognition, factors hydrolysis GTP to provide energy to bind tRNA to A site. Peptidyl trna is in the P site. Aminoacyl tRNA is the in A site.
1
Aminoacyl - tRNA synthetase steps
1. A specific amino acid and ATP bind to aminoacyl-tRNA synthetase 2. The amino acid is activated by the covalent binding of AMP, and pyrophosphate is released 3. The correct tRNA binds to the snythetase. The amino acid is covalently attached to the tRNA. AMP is released 4. The charged tRNA is released
Elongation stage in translation
1. Aminoacyl tRNA brings a new amino acid to the A site 2. Peptide bond is formed between the amino acid at the A site & the growing polypeptide chain 3. Movement or translocation of the ribosome towards the 3' end of the mRNA by one codon
The stages of translation:
1. Initiation-mRNA, the first tRNA and ribosomal subunits assemble into a complex 2. Elongation- synthesis of a polypeptide at the ribosome moves from the start codon to stop codon in the mRNA 3. Termination- complex disassembles at stop codon releasing the completed polypeptide
Poly A Tail
100-200 adenine nucleotides added to 3' end, increases stability and lifespan in cytosol, not encoded in gene sequence
In step __ in the elongation stage of translation the polypeptide is removed from the tRNA in the P site and transferred to the amino acid at the A site and is called the peptidyl transfer reaction. rRNA catalyzes peptide bond formation (the ribosome is a ribozyme)
2
Ability of aminoacyl-tRNA synthetase to recognize appropriate tRNA has been called the ___ _______ ____
2nd genetic code
In step __ in the elongation stage of translation translocation shifts tRNAs at the P and A sites to the E and P sites, the next codon is now at the A spot, and the u charged tRNA exits from the E spot.
3
Translation is read in groups of _ nucleotides known as codons
3
A region is the template strand of DNA used for transcription is 3'-AGCTTGAG-5'. What sequence of RNA would be transcribed?
5'-UCGAACUC-3'
E. coli uses ___% of its cellular energy to translate mRNA into polypeptides
90
In termination the release factors binds to stop codon at the __ site.
A
tRNA
A molecule with two functional sites: one- the anti codon- binds to a codon in mRNA; a second site- the 3' single stranded region (where an appropriate amino acid is attached.
Transcription
Act of making a copy
Most codons specify a particular ______ ______, also _____ & ______ condons
Amino acid, start & stop
Structural differences between prokaryote and eukaryote ribosomes are exploited by ________ to inhibit bacterial ribosomes only.
Antibiotics
The reading frame of tRNA:
Anticodon: 3 RNA nucleotide part of tRNA molecule. Allows binding of tRNA to mRNA codon
Bacterial translation
Bacterial mRNA has a 5' ribosomal-binding site, start codon usually AUG->Methionine, typical polypeptide is a few hundred amino acids in length, stop codons (aka termination or nonsense)-> UAA, UAG, UGA
Eukaryotic transcription:
Basic features identical to prokaryotes, however each step has more proteins. Three forms of RNA polymerase.
Reactions result in tRNA with amino acid attached is now called a _______ tRNA or a _______ tRNA
Charged or aminoacyl
Common features of tRNA
Cloverleaf structure, anticodon on 2nd loop, acceptor stem for AA binding
Exons
Coding sequence segments found in mature mRNA (expressed regions)
The reading frame of mRNA
Codon: set of 3 RNA nucleotides. T of DNA substituted for U of RNA
Termination stage
Complex disassembles at stop codon and releases the completed polypeptide
Proteins are
Composed of one or more polypeptides, key components that affect the structure and function of cells, largely responsible for the outcome of an individuals traits.
Ribosome
Composed of rRNA molecules and many proteins, the ribosome provides a location where mRNA and tRNA molecules can properly interact with each other. The ribosome also catalyzes the formation of covalent bonds between adjacent amino acids so that a polypeptide can be made.
mRNA
Contains the information for the sequence of amino acids in a polypeptide sequence according to the genetic code
Central dogma
DNA -> RNA -> protein
During transcription, ________ is used as a template to make ________.
DNA and RNA
__________ _____: more than one codon can specify the same amino acid. 20 AA -> 64 codons
Degenerate code
Different tRNA molecules are encoded by _________ genes
Different
In termination ribosomal subunits and release factors __________
Disassociate
tRNA synthetases
Enzymes that catalyze attachment of AA to tRNA. One for each of 20 different amino acids, named for the specific amino acid it attaches to tRNA
In _________ transcription occurs in the nucleus, and translation occurs in the cytoplasm
Eukaryotes
_________ have distinct ribosomes in different cellular compartments (cytosol, mitochondria, & chloroplast)
Eukaryotes
___________ also have an intervening step called RNA processing where pre-mRNA is processed into active mRNA. DNA -> pre-mRNA -> mRNA -> protein
Eukaryotes
___________ mRNAs are made in longer pre-mRNA form that requires processing into mature mRNA
Eukaryotic
Comparisons of small subunit rRNAs among different species provide basis for establishing ___________ _________
Evolutionary relationships
Nirenberg and Leder
Found that RNA triplets can promote the binding of tRNA to ribosomes
_______ constitute the genetic material. The "blueprint" for organisms characteristics.
Genes
_______ ____: sequence of bases in an mRNA molecule. (Nearly universal)
Genetic code
In termination a bond between polypeptide and tRNA __________ to release polypeptide
Hydrolyzed
Three stages of transcription
Initiation -> elongation -> termination
3 eukaryotic differences in initiation translation
Instead of ribosomal-binding sequence, mRNAs have guanosine cap at 5' end (recognized by cap-binding proteins) Position of start codon is more variable (many cases, first AUG codon is used as the start codon) The initiator tRNA carries a methionine, not formal-methionine
Other genes code for RNA ________ as a product.
Itself
Both prokaryotes and eukaryotes are composed of _______ and _____ subunits.
Large and small
Capping
Modified guanosine attached to 5' end, needed for mRNA to exit nucleus and bind ribosome
The expression of genes at the ____________ level affects the structure and function of cells which, in turn, determine the traits that organism displays.
Molecular
We can look at gene function at two levels:
Molecular function of the protein product and organisms traits conferred by the gene (these levels are connected)
Translocation
Movement of the ribosome toward the 3' end of the mRNA by one codon
Reading frame
Order in which codons are read during translation (read in 3's = triplet)
Discrete sites for tRNA binding & polypeptide synthesis
P site: peptidly site A site: aminoacyl site E site: exit site
In ________ both transcription and translation occur in the cytoplasm.
Prokaryotes
_______ have one kind of ribosome
Prokaryotes
Structural genes code for polypeptides. One or several polypeptides act as a ________ to play some role in the cell.
Protein
Translation factors:
Proteins needed for the three stages of translation 1. Initiation factors are required for the assembly of mRNA, the first tRNA, and ribosomal subunits. 2. Elongation factors are needed to synthesize the polypeptide. 3. Realize factors are needed to recognize the stop codon and disassemble the translation machinery. Several translation factors use GTP as an energy source to carry out their functions.
Some genes do not encode polypeptides, a _______ is the final functional product.
RNA
Termination stage for transcription
RNA polymerase reaches termination sequence: causes both the polymerase and newly made RNA transcript to dissociate from DNA
Start codon defines the ______ _____ (order in which codons are read during translation)
Reading shift
Initiation stage of transcription
Recognition step. In bacteria, sigma factor causes RNA polymerase to recognize promoter region. Stage is complete when DNA strands separate near promoter to form an open complex.
Initiation stage
Recognition, ribosomal subunits assemble into a complex
Termination in translation is recognized by _______ ______
Release factors
Splicing
Removal of introns and connection of exons
The genetic material provides a blueprint for
Reproduction
___________ use RNA as a template to make DNA
Retroviruses
rRNA and tRNA are self-splicing, they are called ________: RNAs that can catalyze reactions
Ribozymes
rRNA and tRNA are _________
Self-splicing
Elongation stage of transcription
Sigma factor is released. RNA polymerase synthesizes RNA: template strand or coding strand used for RNA synthesis, noncoding strand is not used, synthesized 5' to 3', uracil substituted for thymine
Promoter
Signals the beginning of transcription
Terminator
Signals the end of transcription
Regulatory sequence
Site for the binding of regulatory proteins. The role of regulatory proteins is to influence the rate of transcription.
Most structural genes have one or more introns, ___________ removes introns precisely-composed of snRNPs(small nuclear RNA + proteins)
Spliceosome
Alternative splicing
Splicing can occur more than one way to produce different products
UAA, UAG, UGA are the three ______ codons
Stop
Activities of proteins determine the _________&________ of cells.
Structure & function
Elongation stage
Synthesis of a polypeptide as the ribosome moves from the start codon to stop codon
Other modifications is the addition of _____ & _______
Tails and caps
The steps of ___________ are 1. A release factor binds to the stop codon at the A site 2. The polypeptide is released from the tRNA in the P site. The tRNA is then released 3. Ribosomal subunits and release factors disassociate
Termination
_________ in translation is when a stop codon is found in the A site and translation ends.
Termination
Transcribed region
This region contains the information that specifies an amino acid sequence
Cellular activity, taken together in an organism determines their ________ or ________.
Traits or characteristics
An organized unit of nucleotide sequence that enables a segment of DNA to be _______ into RNA & ultimately results in the formation of a functional product.
Transcribed
RNA polymerase II
Transcribes mRNA and requires 5 general transcription factors to initiate transcription
RNA polymerase I & III
Transcribes nonstructural genes for rRNA and tRNA
__________ is the first step in accessing the information that is stored in DNA
Transcription
Central dogma steps of gene expression
Transcription-"act of making a copy" produces a transcript (RNA copy) of a gene, this messenger RNA (mRNA) specifies the amino acid sequence of a polypeptide Translation-"translating the message into AA sequence" process of synthesizing specific polypeptide on a ribosome using the mRNA template
Translation
Translating the message into AA sequence
Most cells use a substantial amount of energy on _______
Translation
Addition of a _ shifts the reading frame & changes the codons & amino acids specified
U
Peptidyl transfer reaction
______ _______ _______ is when the polypeptide is removed from the tRNA in the P site and transferred to the amino acid at the A site
Bacterial mRNAs can be translated ____________
immediately
During translation, the information within _______ is used to make ________.
mRNA and a polypeptide
Initiation stage of translation in bacteria
mRNA binds to small ribosomal subunits facilitated by ribosomal-binding sequence Start codon is a few nucleotides downstream Initiator tRNA recognizes start codon in mRNA Large ribosomal subunits associate And at the end the imitator tRNA is in the P site
A cell must make many components, so polypeptides can be made:
mRNA, tRNA, ribosomes, translation factors
Initiation stage in translation
mRNA, the first tRNA and ribosomal subunits assemble Requires help of ribosomal initiation factors Requires input of energy(GTP hydrolysis)
Ribosomal RNA (rRNA)
part of the ribosome (site of translation)
Central dogma
provides the basic framework for how genetic information flows from a DNA sequence to a protein product inside cells, this process of genetic information flowing from DNA to RNA to protein is called gene expression
Overall ribosome shape is determined by _____
rRNA
Introns
transcribed but not translated (intervening regions)
Transfer RNA (tRNA)
translates mRNA into amino acids
