Match the following Serves as the ribosome-binding site during translation, aproximately seven nucleotides upstream of t
Posted: Thu Jun 30, 2022 6:31 pm
Match the following
Serves as the ribosome-binding site during translation,aproximately seven nucleotides upstream of the start codon
Region of mRNA after the stop codon
Region of mRNA between the start codon and the stop codon
Removes noncoding introns from pre-mRNA
nucleotide with 7-methylguanine attached to the pre-mRNA by aunique 5′–5′ bond
Polyadenylation at the 3' end of the pre-mRNA
consensus sequence: GU A/G AGU
18-40 nucleotides upstream of 3′-splicing site of pre-mRNA
RNA editing is carried out by
By this mechanism pre-mRNA can be spliced in different ways toproduce different mRNAs
This enzyme is composed of U1, U2, U4, U5, and U6 snRNPs andother proteins not associated with an snRNA
Some introns possess the ability to remove themselves from anRNA molecule without the aid of enzymes or other proteins
Pseudouridine and ribothymine
Amino acid attachment site
Prokaryotic ribosome
with
RNA polymerase
5' splice site
alternative splicing
the protein-coding region
self-splicing
end of acceptor arm of tRNA
3' UTR
Poly A tail
5' cap
RNA splicing
Shine-dalgarno sequence
50s and 30s subunits
modified bases of tRNA
nuclease
guide RNA
spliceosome
branch site
Serves as the ribosome-binding site during translation,aproximately seven nucleotides upstream of the start codon
Region of mRNA after the stop codon
Region of mRNA between the start codon and the stop codon
Removes noncoding introns from pre-mRNA
nucleotide with 7-methylguanine attached to the pre-mRNA by aunique 5′–5′ bond
Polyadenylation at the 3' end of the pre-mRNA
consensus sequence: GU A/G AGU
18-40 nucleotides upstream of 3′-splicing site of pre-mRNA
RNA editing is carried out by
By this mechanism pre-mRNA can be spliced in different ways toproduce different mRNAs
This enzyme is composed of U1, U2, U4, U5, and U6 snRNPs andother proteins not associated with an snRNA
Some introns possess the ability to remove themselves from anRNA molecule without the aid of enzymes or other proteins
Pseudouridine and ribothymine
Amino acid attachment site
Prokaryotic ribosome
with
RNA polymerase
5' splice site
alternative splicing
the protein-coding region
self-splicing
end of acceptor arm of tRNA
3' UTR
Poly A tail
5' cap
RNA splicing
Shine-dalgarno sequence
50s and 30s subunits
modified bases of tRNA
nuclease
guide RNA
spliceosome
branch site