All GRE Subject Test: Biochemistry, Cell, and Molecular Biology Resources
Example Questions
Example Question #1 : Help With Rna Structure And Modification
Which of the following processes is not a type of RNA processing carried out by eukaryotes?
Polyadenylation of the 3' end
Splicing and removal of introns
Capping of the 5' end
Nucleotide excision repair
Nucleotide excision repair
Processing of pre-mRNA occurs in the nucleus. After transcription, three crucial modification take place. A 7-methylguanosine molecule is added to the 5' end to form a cap. Polyadenylation is added to the 3' end to create a poly-A tail. Introns are spliced out by spliceosomes, removing the non-coding regions of the RNA. The final product after modifications is considered a mature mRNA; prior to this, the transcript is known as heteronuclear RNA (htRNA).
Nucleotide excision repair is a method of proofreading after DNA replication to reduce the frequency of mutation.
Example Question #1 : Help With Rna Structure And Modification
What are exons?
Site where repressor proteins bind
Intervening non-coding segments of DNA
Genetic information coding for an amino acid sequence that will form a functional protein
Set of genes that are adjacent to one another in the genome and are coordinately controlled
Genetic information coding for an amino acid sequence that will form a functional protein
Exons contain the actual genetic information coding for protein. In contrast, introns are intervening non-coding segments of DNA. During the splicing process of pre-mRNA modification, introns are removed from the sequence. Alternative splicing patterns allow multiple exon sequences to be created from a single gene, resulting in multiple proteins.
An operon is a set of genes that are adjacent to one another in the genome and are coordinately controlled. The silencer region is a site of a gene where repressor proteins bind to regulate gene expression.
Example Question #1 : Help With Rna Structure And Modification
What are snRNPs (small nuclear ribonucleic particles)?
RNA molecules that convey genetic information from DNA to the ribosome
RNA molecules that serve as the link between the nucleotide sequence of nucleic acids and the amino acid sequence of proteins
RNA protein complexes that combine with pre-mRNA and other proteins to form a spliceosome
RNA component of the ribosome, essential for protein synthesis
RNA protein complexes that combine with pre-mRNA and other proteins to form a spliceosome
snRNPs are RNA protein complexes that combine with pre-mRNA and other proteins to form a spliceosome. Spliceosomes remove introns from pre-mRNA. After final modifications, the spliced pre-mRNA is considered mature mRNA and can be exported to the cytoplasm for translation.
mRNA is an RNA molecule that conveys genetic material from DNA to the ribosome. tRNA is an RNA molecule that serves as the link between the nucleotide sequence of nucleic acids and the amino acid sequence of proteins. rRNA is the RNA component of the ribosome that is essential for protein synthesis in all living organisms.
Example Question #1 : Help With Rna Structure And Modification
Which of the following is not a type of RNA?
rRNA
tRNA
mRNA
cRNA
cRNA
mRNA, tRNA, and rRNA are the most commonly recognized types of RNA, though there are several more divisions. Messenger RNA (mRNA) is the product of gene transcription and is used to carry genetic information to ribosomes for translation. Transfer RNA (tRNA) is used to transport amino acid residues to active ribosomes during translation and contains anticodon sequences to bind to mRNA. Ribosomal RNA (rRNA) forms part of the ribosomes structure.
Though cRNA is not a class of RNA molecule, complementary DNA (cDNA) is used to store and analyze genomes. cDNA is the non-coding complement to the template strand used for transcription, and can be used to analyze genetic sequences.
Example Question #3 : Help With Rna Structure And Modification
All of the follwing are types of alternative RNA splicing except __________.
dual splice site
skipped exon
alternative 3' splicing
exon reversal
exon reversal
Skipped exon, dual splice site, and alternative 3' splicing are all types of alternative RNA splicing. Exon reversal is a nonsense term, and does not represent an actual biochemical process.
Example Question #1 : Help With Rna Structure And Modification
Which of the following is not a category of RNA?
MicroRNAs
Piwi-interacting RNAs
Major RNAs
Short interfering RNAs
Long non-coding RNA
Major RNAs
Major RNAs are not a category of RNAs. Long non-coding RNAs are non-protein coding transcripts typically longer than 200 base pairs (bp) and play a role in regulating gene expression and epigenetic regulation. MicroRNAs are small RNAs (~20 bp) and play a role in RNA silencing and post-transcriptional regulation of gene expression. Short interfering RNAs are double-stranded (20-25 bp) and play a role in post-transcriptional gene silencing. Piwi-interacting RNAs are small non-coding RNAs that interact with piwi proteins in epigenetic and post-transcriptional silencing of genetic elements such as retroposons.
Example Question #21 : Rna, Transcription, And Translation
What approximate percentage of total RNA content in a cell is messenger RNA (mRNA)?
Only 2-5% of the total RNA content in a cell is mRNA. Approximately 10% is transfer RNA (tRNA), and approximately 85% is ribosomal RNA (rRNA).
Example Question #3 : Help With Rna Structure And Modification
Why is the post-transcriptional poly-A tail an important addition to a mRNA molecule?
The tail adds stability to the transcript, controlling the time of degradation.
The poly-A tail is a part of the protein translated from the mRNA.
The 3' tail signals the end of transcription by the RNA polymerase.
The poly-A tail facilitates the binding of ribosomes.
The poly-A tail facilitates the splicing of introns.
The tail adds stability to the transcript, controlling the time of degradation.
The poly-A tail adds to the stability of the mRNA transcript. The tail becomes shorter and shorter over time due to exonucleases, eventually signaling an enzyme to break down the mRNA to stop further translation. The 5' methylated guanosine cap facilitates binding of ribosomes, and specific splicing sequences signal removal of introns, not the poly-A tail. The tail cannot signal the end of transcription by the RNA polymerase because the poly-A tail is a post-transcriptional change, meaning it is not present during transcription. Lastly, the poly-A tail lies at the end of the 3' UTR (untranslated region), and is not included in the protein product of the mRNA.
Example Question #4 : Help With Rna Structure And Modification
Researchers first identified parts of genes that are spliced out of mRNA and not included in the final protein product by observing that not all of the original gene hybridizes to the cognate mRNA. What are these regions called?
Micro RNAs
Internal transcribed spacers
Exons
Inter genic regions
Introns
Introns
Introns are regions included in genes that are not actually part of the final protein generated. Scientists first observed that some areas of genes are removed before mRNA translation by visualizing that not all of a gene hybridizes with its cognate mRNA, and hence there are pieces that are spliced out and not used. Note that splicing of introns, like all other post-transational modifications, only occurs in eukaryotes. The function of intron regions is thought to be mostly regulatory.
Example Question #21 : Rna, Transcription, And Translation
How is splicing regulated at the level of cis-acting RNA sequence elements?
Splicing repressors bind splicing silencers and decrease nearby splice junction activity. Splicing activators bind splicing promoters and increase likelihood of proximal sites as splice junction.
Splicing repressors bind splicing silencers and decrease nearby splice junction activity. Splicing activators bind splicing enhancers and increase likelihood of proximal sites as splice junction.
Splicing repressors bind splicing silencers and increase nearby splice junction activity. Splicing activators bind splicing enhancers and decrease likelihood of proximal sites as splice junction.
Insulators bind splicing silencers and decrease nearby splice junction activity. Splicing activators bind splicing enhancers and increase likelihood of proximal sites as splice junction.
Heterochromatin prevents alternative splicing whereas euchromatin promotes alternative splicing
Splicing repressors bind splicing silencers and decrease nearby splice junction activity. Splicing activators bind splicing enhancers and increase likelihood of proximal sites as splice junction.
The correct answer is repressors bind splicing silencers and increase nearby splice junction activity. Activators bind splicing enhancers and decrease likelihood of proximal sites as splice junction. These enhancer sites can be in the intron or exon of the nascent RNA molecule and are most commonly bound by serine and arginine (SR) proteins. Moreover, the relative abundance of these bound RNA regulatory elements in proximity to a splice junction confers differential splicing activity.
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