Protein acetylation commonly has two different forms. In humans, almost (80%-90%) proteins become co-translationally acetylated at their Nα-termini of the nascent polypeptide chains. Another type is typically acetylated on lysine residues.

1. Brief Introduction of Protein
Acetylation
Creative Proteomics Presentation

2. Protein Acetylation
Acetylation refers to a reaction that introduces an acetyl functional group into a
chemical compound, in which the hydrogen atom of a hydroxyl group is replaced
by an acetyl group (CH3 CO) to yield a specific ester, the acetate.
N-terminal acetylation Lysine acetylation

3. N-terminal acetylation
 N-terminal (Nt) acetylation are
catalyzed by N-terminal-
acetyltransferases (NATs) and is
found to be irreversible so far.
Drazic, Adrian, et al. "The world of protein acetylation." Biochimica et Biophysica Acta
(BBA)-Proteins and Proteomics1864.10 (2016): 1372-1401.
 NATs, mono- or multisubunit
enzymes consisting of a catalytic
subunit and up to two auxiliary
subunits, can transfer an acetyl
group from acetyl-coenzyme A (Ac-
CoA) to the α-amino group of the first
amino acid residue of the protein.
 In humans, there are six NATs
have been found so far, including
NatA, NatB, NatC, NatD, NatE and
NatF

4. N-terminal acetylation
Drazic, Adrian, et al. "The world of protein acetylation." Biochimica et Biophysica Acta
(BBA)-Proteins and Proteomics1864.10 (2016): 1372-1401.
Nt acetylation plays different roles in molecular effects.

5. N-terminal acetylation has many functions in physiology.
N-terminal acetylation
NATs is essential for normal development, bone and blood vessel development.
N-terminal acetylation can regulate blood pressure, proteasome localization, hormone, as well
as organelle structure and function.
In human disease, it relate to neurodegenerative diseases (such as Alzheimer's disease,
Parkinson's disease and Lewy body dementia) and cancer (like lung cancer, breast cancer,
colorectal cancer).

6. Lysine Acetylation
 Unlike Nt acetylation, lysine acetylation is reversible. The acetylation is catalyzed by
lysine acetyltransferases (KATs) and the deacetylation of lysine residues is catalyzed by
lysine deacetylases (KDACs).
 Acetylated lysine residues were first discovered in histones regulating gene transcription.
This is the reason why the enzymes catalyzing lysine (K) acetyltransferases were termed
histone acetyltransferases (HATs) and lysine deacetylases were termed histone
deacetylases (HDACs). But lysine acetylation is not limited to histones.

7. Lysine acetylation: KATs
 It is reported that 17-22 genes KATs have
been identified in human genome (The exact
number of KATs is controversial), which can
be classified into three different families,
including GCN5 (general control non-
derepressible 5)-related acetyltransferase
(GNAT) family, the MYST family, and
p300/CBP (CREB-binding protein) family.
 The known substrates of KAT complexes not
only include histone proteins, but some
different transcription factors, transcriptional
co-regulators, and some proteins of specific
cellular signaling pathways like p53, β-
catenin, NF-κB, MyoD or Rb.
Biancotto, Chiara, Gianmaria Frigè, and Saverio Minucci. "Histone modification therapy
of cancer." Advances in genetics. Vol. 70. Academic Press, 2010. 341-386.

8. Lysine acetylation: KDACs
Schneider, Günter, et al. "Targeting histone deacetylases in pancreatic ductal
adenocarcinoma." Journal of cellular and molecular medicine 14.6a (2010): 1255-1263.
 The KDAC family has phylogenetically been
divided into four classes according to their
homology in the catalytic domain.
 Classes I, II and IV bear homology to each other as
well as orthology to the same Saccharomyces
cerevisiae proteins (Rpd3 and Hda1),
which catalyze deacetylation in a Zn2+ dependent
manner.
 While Class III, Sirtuins contains seven members from
SIRT1 to SIRT7 that bears homology to the
Saccharomyces cerevisiae protein. In contrast to the
other three, Sirtuins are nicotinamide–adenine–
dinucleotide (NAD+) dependent deacetylases and
ADP-ribosyltransferases.

9. Lysine acetylation
 The histone proteins are associated with a tight
regulation of essential all types of DNA-
templated processes, such as transcription,
replication, recombination, repair, translation and
formation of specialized chromatin structures.
 Therefore, protein lysine acetylation affect a
range of cellular signaling pathways as well as
metabolism, stress responses, apoptosis and
membrane trafficking.
Together with DNA, histone proteins form the
so called nucleosomes. One nucleosome
consists of about 150–200 bps of DNA.
 Histone acetylation can determine the histone
assembling as well as the folding and
compactness of the DNA-histone interaction and
therefore presenting a switch between
permissive and repressive chromatin structure.

10. Lysine acetylation
With the development of mass spectrometry (MS), it has been an important tool for the
identification and quantification of lysine acetylation.
Zhang, Kai, Shanshan Tian, and Enguo Fan. "Protein lysine acetylation analysis:
current MS-based proteomic technologies." Analyst 138.6 (2013): 1628-1636.

11. Professional Platforms
Creative Proteomics has established a highly
sensitive HPLC-MS/MS platform that can analyze
acetylation in multiple samples and in both eukaryotic
and prokaryotic organisms. In addition, we have
optimized our protocol to enable more fast and
sensitive site mapping service for acetylation analysis.
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