Everything about The N-terminus totally explained
The
N-terminus (also known as the
amino-terminus,
NH2-terminus,
N-terminal end or
amine-terminus) refers to the end of a
protein or
polypeptide terminated by an
amino acid with a free
amine group (-NH
2). The convention for writing peptide sequences is to put the N-terminus on the left and write the sequence from N- to
C-terminus. When the protein is translated from messenger RNA, it's created from N-terminus to C-terminus.
Chemistry
Each amino acid has a
carboxyl group and an amine group, and amino acids link to one another to form a chain by a
dehydration reaction by joining the amine group of one amino acid to the carboxyl group of the next. Thus polypeptide chains have an end with an unbound carboxyl group, the
C-terminus, and an end with an amine group, the N-terminus.
When the protein is
translated from
messenger RNA, it's created from N-terminus to C-terminus. The amino end of an amino acid (on a charged
tRNA) during the elongation stage of translation, attaches to the carboxyl end of the growing or nascent chain. Since the
start codon of the
genetic code codes for the amino acid
methionine, most protein sequences start with a methionine (more specifically: the modified version
N-formylmethionine, fMet). However, some proteins are modified
posttranslationally, for example by cleavage from a
protein precursor, and therefore may have different amino acids at their N-terminus.
Function
N-terminal targeting signals
The N-terminus is the first part of the protein that exits the
ribosome during
protein biosynthesis. It often contains sequences that act as targeting signals, basically intracellular
zip codes, that allow for the protein to be delivered to its designated location within the cell. The targeting signal is usually cleaved off after successful targeting by a processing
peptidase
Mitochondrial targeting peptide
The N-terminal mitochondrial targeting peptide (mtTP) allows for the protein to be imported into the mitochondrion.
Chloroplast targeting peptide
The N-terminal chloroplast targeting peptide (cpTP) allows for the protein to be imported into the chloroplast.
N-terminal modifications
Some proteins are modified posttranslationally by the addition of membrane anchors that allow the protein to associate with membrane without having a transmembrane domain. The N-terminus (as well as the C-terminus) of a protein can be modified this way.
N-Myristoylation
The N-terminus can be modified by the addition of a myristoyl anchor. Proteins that are modified this way contain a consensus motif at their N-terminus as a modification signal.
N-Acylation
The N-terminus can also be modified by the addition of a fatty acid anchor to form N-acylated proteins. The most common form of such modification is the addition of a palmitoyl group.Further Information
Get more info on 'N-terminus'.
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