Codon's
Started by osimsDDS
very nice it was a trick question but you got it, originally 64 but stop codons are not aa so subtract 3 = 61 that actually code for aa's.
Now another question (I am testing):
What functional group is attached to the 5' end of an mRNA in RNA processing before it leaves the nucleus for translation?
a) ATP
b) ADP
c) GDP
d) GTP
e) CTP
Now another question (I am testing):
What functional group is attached to the 5' end of an mRNA in RNA processing before it leaves the nucleus for translation?
a) ATP
b) ADP
c) GDP
d) GTP
e) CTP
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Also can ask this question while im at it:
How many purines are added to the poly A tail of mRNA during RNA processing and what is the main purpose?
a) 1000 Adenines, for energy
b) 500 Thymines, for stability in the cytoplasm
c) 300 Guanines, for stability in the cytoplasm
d) 200 Adenines, for stability in the cytoplasm
e) 500 Cytosines, for energy
How many purines are added to the poly A tail of mRNA during RNA processing and what is the main purpose?
a) 1000 Adenines, for energy
b) 500 Thymines, for stability in the cytoplasm
c) 300 Guanines, for stability in the cytoplasm
d) 200 Adenines, for stability in the cytoplasm
e) 500 Cytosines, for energy
Answer to this one is D, Guanine with phosphate groups are attached to the 5' end of the mRNA this is also known as the 5' cap before the mRNA is released into the cytoplasm for translation...the GTP has a high bond energy which the ribosomal subunits attach to...
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I would guess 76...d for the first one
Second question is RNA pol II
RNA Pol I transcribes DNA to make rRNA
RNA pol II transcribes DNA to make both mRNA and snRNA
RNA pol III transcribes DNA to make tRNA and rRNA
RNA pol IV and gama...no such thing as far as I know haha
Second question is RNA pol II
RNA Pol I transcribes DNA to make rRNA
RNA pol II transcribes DNA to make both mRNA and snRNA
RNA pol III transcribes DNA to make tRNA and rRNA
RNA pol IV and gama...no such thing as far as I know haha
the first one is 74. if the introns are between the exons, there has to be 1 less intron.
great job with the second! everything you said was right! no such thing as rna pol IV or rna pol gama. there is, however a DNA pol gamma, which is responsible for the replication of mitochondrial and chloroplast DNA.
great job with the second! everything you said was right! no such thing as rna pol IV or rna pol gama. there is, however a DNA pol gamma, which is responsible for the replication of mitochondrial and chloroplast DNA.
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D i believe is the answer but it might be e haha, b is wrong cuz splicing doesnt occur in bacteria...
What occurs during RNA interference when short interfering RNA's (siRNA's) black mRNA transcription or translation?
a) enzymes degrade mRNA
b) siRNA's cut the single stranded mRNA molecule
c) siRNA's cut the double stranded mRNA molecule
d) no such thing as siRNA's
What occurs during RNA interference when short interfering RNA's (siRNA's) black mRNA transcription or translation?
a) enzymes degrade mRNA
b) siRNA's cut the single stranded mRNA molecule
c) siRNA's cut the double stranded mRNA molecule
d) no such thing as siRNA's
yes, D is right. there is little to no processing in bacterial RNA. since one of the primary purposes of processing is to protect the RNA from degrative enzymes, transcription and translation are coupled for protection purposes.
iv never heard of siRNA...and you seem to like tricks so im gonna go with D no such thing.
iv never heard of siRNA...and you seem to like tricks so im gonna go with D no such thing.
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HAHAHAH nope didnt trick you this time haha thats funny tho...
ok so siRNA's is a form of gene regulation in eukaryotes...RNA folds on itself and causes it to become double stranded, then the siRNA come in and snip it at particular sites and then those sites attach or stick to DNA complimentary so that part of the DNA that codes for the particular gene for a protein will not undergo transcription to produce the certain protein anymore...its pretty interesting I found it in cliffs AP bio
ok so siRNA's is a form of gene regulation in eukaryotes...RNA folds on itself and causes it to become double stranded, then the siRNA come in and snip it at particular sites and then those sites attach or stick to DNA complimentary so that part of the DNA that codes for the particular gene for a protein will not undergo transcription to produce the certain protein anymore...its pretty interesting I found it in cliffs AP bio
haha thats funny! thanks for the explaination, i just made another flashcard to add to the giant pile! ok one more question and then i have to get back to studying:
which of these is a family of proteins that directly assists other proteins with self folding?
A) chaperonins
B) molecular chaperones
C) hammer head ribozymes
D) folder proteins
which of these is a family of proteins that directly assists other proteins with self folding?
A) chaperonins
B) molecular chaperones
C) hammer head ribozymes
D) folder proteins
i thought chaperonins were also considered a family of proteins, which is why id say the answer is A. chaperonins directly facilitate in the folding of proteins, but molecular chaperones prevent proteins from folding when they are not supposed to. if chaperonins arent considered a family of proteins then my questions not so good hahaha.
yea my bad you guys are right...
chaperonins: help newly synthesized proteins convey their folding
molecular chaperones: they do not help proteins convey their folding but they help proteins such as histones in nucleosome structure of DNA fold the DNA...if that made sense.
chaperonins: help newly synthesized proteins convey their folding
molecular chaperones: they do not help proteins convey their folding but they help proteins such as histones in nucleosome structure of DNA fold the DNA...if that made sense.
