Creative Biogene Creative Biogene
Inquiry
Pages
Products
  1. Home
  2. mitochondrial poly(A) polymerase

PAPD1

Official Full Name
mitochondrial poly(A) polymerase
Organism
Homo sapiens
Gene ID
55149
Background
The protein encoded by this gene is a member of the DNA polymerase type-B-like family. This enzyme synthesizes the 3' poly(A) tail of mitochondrial transcripts and plays a role in replication-dependent histone mRNA degradation.[provided by RefSeq, Jan 2011]
Synonyms
MTPAP; PAPD1; SPAX4; TENT6

Cat.No. Product Name Price
SHH346624 shRNA set against Mouse MTPAP (NM_026157.2) Inquiry
SHH346620 shRNA set against Human MTPAP (NM_018109.3) Inquiry
SHH346628 shRNA set against Rat MTPAP (NM_001107359.1) Inquiry
Cat.No. Product Name Price
CDFR007060 Rat Mtpap cDNA Clone(NM_001107359.1) Inquiry
MiUTR1M-08886 MTPAP miRNA 3'UTR clone Inquiry
MiUTR4H-TG05719 MTPAP miRNA 3'UTR clone Inquiry
CDCB184750 Rabbit MTPAP ORF clone (XM_008268021.1) Inquiry
CDCH390930 Human MTPAP ORF clone(NM_018109.3) Inquiry
CDCR374070 Rat Mtpap ORF Clone(NM_001107359.1) Inquiry

Detailed Information

Structural basis for dimerization and activity of human PAPD1

In most living organisms, poly(A) polymerases (PAPs) have significant involvement in RNA function and metabolism. Also known as mtPAP, TUTase1, PAPD1 is a noncanonical PAP responsible for a mitochondrial RNAs polyadenylation, which is required to complete the stop codon (UAA) for some mitochondrial mRNAs, and RNA stability can be also probably regulated by the poly(A) tail. PAPD1 also makes great contributions to mitochondrial tRNAs maturation. The activity of PAPD1 on its own and independence from a separate RNA binding protein is contrast to GLD2. Containing a mitochondrial targeting sequence at the N terminus (residues 1-37) of PAPD1 as the sole PAP in humans is consistent with its role in the mitochondrion. Oligouridylation for uridylate histone mRNA2 by degradation of PAPD1 as well as TUTase3 suggests its functionality as a TUTase in the cytoplasm. There single-nucleotide polymorphisms (SNPs) have some relations with extreme obesity in cattle, missense mutation can be led by one of which after the mitochondrial targeting sequence.

Crystal structure of human PAPD1, which is a noncanonical PAP that can polyadenylate RNAs in mitochondria, was revealed in a recent study. Its overall structure of the palm and finger domains share some similarities with that in the canonical PAPs. Among the two domains, the active site is located with a large pocket for the accommodation of the substrates. A previously unrecognized domain in the N-terminal region of PAPD1, which is equipped with backbone fold share similarities with that of RNP-type RNA binding domains, was revealed in the structure analysis. This domain also known as the RL domain, together with β-arm insertion in the palm domain, plays a significant role in the dimerization of PAPD1, which is further confirmed to be required for the catalytic activity of PAPD1 in the mutagenesis and biochemical studies.

PAPD1 is a candidate gene for the extreme obesity related phenotype in mammals

In people with obesity, especially extreme obesity, the responsible genes remain unknown in above 95% of severe obesity cases. Amplified fragment length polyporphism (AFLP) approach was used for genome regions screening of extreme obesity-related phenotypes on divergent animals derived from Wagyu x Limousin crosses. Wagyu breed of cattle was traditionally recognized as with high intramuscular fat, while the Limousin breed is opposite to it. The two breeds with different trait have the specialty in mapping genes for obesity-related phenotypes. The newly discovered nuclear-encoded mitochondrial poly(A) polymerase, PAPD1 gene is adjacent at the human gene KIAA1462 on the chromosome, and has an enrollment in RNA processing for the requirement of polyadenylation and stabilization of mammalian mitochondrial mRNAs.

Figure 1. Comparative annotation of both cDNA and genomic DNA sequences of the bovine PAPD1 gene. Figure 1. Comparative annotation of both cDNA and genomic DNA sequences of the bovine PAPD1 gene. (Xiao, et al. 2006)

References:

  1. Xiao Q, Wu X L, Michal J J, et al. A novel nuclear-encoded mitochondrial poly (A) polymerase PAPD1 is a potential candidate gene for the extreme obesity related phenotypes in mammals. International journal of biological sciences, 2006, 2(4): 171.
  2. Bai Y, Srivastava S K, Chang J H, et al. Structural basis for dimerization and activity of human PAPD1, a noncanonical poly (A) polymerase. Molecular cell, 2011, 41(3): 311-320.
Quick Inquiry
Products

Transfected Stable Cell Lines

Premade Virus Particles

Laboratory Equipment

RNA Interference Products

Cell Lysate

Clones

Enzymes

Kits

Aptamers

Services

Stable Cell Line Generation

Target-based Drug Discovery Service

Custom Libraries Construction Service

Microbe Genome Editing Service

Biosafety Testing Service

Nucleotides Service

MicroRNA Service

RNAi Service

Custom Viral Service

Platforms

CRISPR/Cas9 PlatformCB

QvirusTM Platform

IntegrateRNA Platform

Microbiology Platform

Zebrafish Platform

Get in Touch

Tel

Fax

Email

USA

Germany

Copyright © 2026 Creative Biogene. All rights reserved.

Privacy Policy | Cookie Policy