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Literature DB >> 23542011

D316 is critical for the enzymatic activity and HIV-1 restriction potential of human and rhesus APOBEC3B.

Rebecca M McDougle¹, Judd F Hultquist, Alex C Stabell, Sara L Sawyer, Reuben S Harris.

Abstract

APOBEC3B is one of seven human APOBEC3 DNA cytosine deaminases that function to inhibit the replication and persistence of retroelements and retroviruses. Human APOBEC3B restricts the replication of HIV-1 in HEK293 cells, while our laboratory clone of rhesus macaque APOBEC3B did not. We mapped the restriction determinant to a single amino acid difference that alters enzymatic activity. Human APOBEC3B D316 is catalytically active and capable of restricting HIV-1 while rhesus APOBEC3B N316 is not; swapping these residues alters the activity and restriction phenotypes respectively. Genotyping of primate center rhesus macaques revealed uniform homozygosity for aspartate at position 316. Considering the C-to-T nature of the underlying mutation, we suspect that our rhesus APOBEC3B cDNA was inactivated by its own gene product during subcloning in Escherichia coli. This region has been previously characterized for its role in substrate specificity, but these data indicate it also has a fundamental role in deaminase activity.

Entities: CellLine Chemical Disease Gene Mutation Species

Mesh：

Substances：
Cytidine Deaminase

Year: 2013 PMID： 23542011 PMCID： PMC3752335 DOI： 10.1016/j.virol.2013.03.003

Source DB: PubMed Journal: Virology ISSN： 0042-6822 Impact factor: 3.616

58 in total

1. A single amino acid in human APOBEC3F alters susceptibility to HIV-1 Vif.

Authors: John S Albin; Rebecca S LaRue; Jessalyn A Weaver; William L Brown; Keisuke Shindo; Elena Harjes; Hiroshi Matsuo; Reuben S Harris
Journal: J Biol Chem Date: 2010-10-22 Impact factor: 5.157

2. Structure-function analyses point to a polynucleotide-accommodating groove essential for APOBEC3A restriction activities.

Authors: Yannick Bulliard; Iñigo Narvaiza; Alessandro Bertero; Shyam Peddi; Ute F Röhrig; Millán Ortiz; Vincent Zoete; Nataly Castro-Díaz; Priscilla Turelli; Amalio Telenti; Olivier Michielin; Matthew D Weitzman; Didier Trono
Journal: J Virol Date: 2010-12-01 Impact factor: 5.103

3. Innate immune signaling induces high levels of TC-specific deaminase activity in primary monocyte-derived cells through expression of APOBEC3A isoforms.

Authors: Beth K Thielen; John P McNevin; M Juliana McElrath; Brook Vander Stoep Hunt; Kevin C Klein; Jaisri R Lingappa
Journal: J Biol Chem Date: 2010-07-08 Impact factor: 5.157

4. Determinants of sequence-specificity within human AID and APOBEC3G.

Authors: Michael A Carpenter; Erandi Rajagurubandara; Priyanga Wijesinghe; Ashok S Bhagwat
Journal: DNA Repair (Amst) Date: 2010-03-24

5. Crystal structure of the APOBEC3G catalytic domain reveals potential oligomerization interfaces.

Authors: Shivender M D Shandilya; Madhavi N L Nalam; Ellen A Nalivaika; Phillip J Gross; Johnathan C Valesano; Keisuke Shindo; Ming Li; Mary Munson; William E Royer; Elena Harjes; Takahide Kono; Hiroshi Matsuo; Reuben S Harris; Mohan Somasundaran; Celia A Schiffer
Journal: Structure Date: 2010-01-13 Impact factor: 5.006

6. Identification of a single amino acid required for APOBEC3 antiretroviral cytidine deaminase activity.

Authors: Ying Dang; Aierken Abudu; Sungmo Son; Elena Harjes; Paul Spearman; Hiroshi Matsuo; Yong-Hui Zheng
Journal: J Virol Date: 2011-03-23 Impact factor: 5.103

7. Quantitative profiling of the full APOBEC3 mRNA repertoire in lymphocytes and tissues: implications for HIV-1 restriction.

Authors: Eric W Refsland; Mark D Stenglein; Keisuke Shindo; John S Albin; William L Brown; Reuben S Harris
Journal: Nucleic Acids Res Date: 2010-03-22 Impact factor: 16.971

8. Dissecting APOBEC3G substrate specificity by nucleoside analog interference.

Authors: Jason W Rausch; Linda Chelico; Myron F Goodman; Stuart F J Le Grice
Journal: J Biol Chem Date: 2009-01-09 Impact factor: 5.157

9. Guidelines for naming nonprimate APOBEC3 genes and proteins.

Authors: Rebecca S LaRue; Valgerdur Andrésdóttir; Yannick Blanchard; Silvestro G Conticello; David Derse; Michael Emerman; Warner C Greene; Stefán R Jónsson; Nathaniel R Landau; Martin Löchelt; Harmit S Malik; Michael H Malim; Carsten Münk; Stephen J O'Brien; Vinay K Pathak; Klaus Strebel; Simon Wain-Hobson; Xiao-Fang Yu; Naoya Yuhki; Reuben S Harris
Journal: J Virol Date: 2008-11-05 Impact factor: 5.103

10. The artiodactyl APOBEC3 innate immune repertoire shows evidence for a multi-functional domain organization that existed in the ancestor of placental mammals.

Authors: Rebecca S LaRue; Stefán R Jónsson; Kevin A T Silverstein; Mathieu Lajoie; Denis Bertrand; Nadia El-Mabrouk; Isidro Hötzel; Valgerdur Andrésdóttir; Timothy P L Smith; Reuben S Harris
Journal: BMC Mol Biol Date: 2008-11-18 Impact factor: 2.946

5 in total

1. Determinants of Oligonucleotide Selectivity of APOBEC3B.

Authors: Jeffrey R Wagner; Özlem Demir; Michael A Carpenter; Hideki Aihara; Daniel A Harki; Reuben S Harris; Rommie E Amaro
Journal: J Chem Inf Model Date: 2018-09-10 Impact factor: 4.956

2. Analysis of the N-terminal positively charged residues of the simian immunodeficiency virus Vif reveals a critical amino acid required for the antagonism of rhesus APOBEC3D, G, and H.

Authors: Kimberly Schmitt; Miki Katuwal; Yaqiong Wang; Cicy Li; Edward B Stephens
Journal: Virology Date: 2013-12-05 Impact factor: 3.616