Current Issue: <JZUS-B>

 

Journal of Zhejiang University-SCIENCE B (Biomedicine & Biotechnology)

ISSNs 1673-1581 (Print); 1862-1783 (Online); CN 33-1356/Q; started in 2005,Monthly.


JZUS-B is an international "Biomedicine & Biotechnology" reviewed-Journal indexed by SCI-E, MEDLINE, PMC, BA, BIOSIS Previews, JST, ZR, CA, SA, AJ, ZM, CABI, CSA, etc., and supported by the National Natural Science Foundation of China. It mainly covers research in Biomedicine, Biochemistry and Biotechnology, etc.

Impact factor: 1.099 (2011), 1.108 (2012), 1.293 (2013), 1.278 (2014), 1.303 (2015), 1.676 (2016), 1.815 (2017), 1.879 (2018).


Journal of Zhejiang University-SCIENCE B

ISSN 1673-1581(Print), 1862-1783(Online), Monthly

2021 Vol.22 No.1 P.1-86

   Cover:  <837>
      
Contents:  <1037>

CONTENTS


Special Issue on DNA Damage Response, Genome Stability, and Human Disease

Guest Editor-in-Chief: Jun HUANG

Reviews

Review: Mass spectrometry-based protein?protein interaction techniques and their applications in studies of DNA damage repair

Zhen CHEN, Junjie CHEN

DOI: 10.1631/jzus.B2000356 Downloaded: 3892 Clicked: 5156 Cited: 0 Commented: 0(p.1-20) <Full Text>   <PPT>  2273

Review: ADP-ribosylhydrolases: from DNA damage repair to COVID-19

Lily YU, Xiuhua LIU, Xiaochun YU

DOI: 10.1631/jzus.B2000319 Downloaded: 3776 Clicked: 6032 Cited: 0 Commented: 0(p.21-30) <Full Text>   <PPT>  2361

Review: MRN complex is an essential effector of DNA damage repair

Shan QIU, Jun HUANG

DOI: 10.1631/jzus.B2000289 Downloaded: 3988 Clicked: 6712 Cited: 0 Commented: 0(p.31-37) <Full Text>   <PPT>  2235

Review: Regulation of DNA double-strand break repair pathway choice: a new focus on 53BP1

Fan ZHANG, Zihua GONG

DOI: 10.1631/jzus.B2000306 Downloaded: 0 Clicked: 0 Cited: 0 Commented: (p.38-46) <Full Text>

Review: DNA alkylation lesion repair: outcomes and implications in cancer chemotherapy

DOI: 10.1631/jzus.B2000344 Downloaded: 0 Clicked: 0 Cited: 0 Commented: (p.47-62) <Full Text>

Review: Role of deubiquitinating enzymes in DNA double-strand break repair

DOI: 10.1631/jzus.B2000309 Downloaded: 0 Clicked: 0 Cited: 0 Commented: (p.63-72) <Full Text>

Review: Target binding and residence: a new determinant of DNA double-strand break repair pathway choice in CRISPR/Cas9 genome editing

DOI: 10.1631/jzus.B2000282 Downloaded: 0 Clicked: 0 Cited: 0 Commented: (p.73-86) <Full Text>

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