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Biochim Biophys Acta. 2015 Sep;1847(9):779-85. doi: 10.1016/j.bbabio.2014.12.010. Epub 2015 Jan 10.
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Role of cytidine deaminase in toxicity and efficacy of nucleosidic analogs.胞苷脱氨酶在核苷类似物毒性和疗效中的作用。
Expert Opin Drug Metab Toxicol. 2015 May;11(5):665-72. doi: 10.1517/17425255.2015.985648. Epub 2014 Dec 13.
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Identification of enzymes for adenosine-to-inosine editing and discovery of cytidine-to-uridine editing in nucleus-encoded transfer RNAs of Arabidopsis.拟南芥细胞核编码转运RNA中腺苷到肌苷编辑酶的鉴定及胞苷到尿苷编辑的发现。
Plant Physiol. 2014 Dec;166(4):1985-97. doi: 10.1104/pp.114.250498. Epub 2014 Oct 14.
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Uric acid accumulation in an Arabidopsis urate oxidase mutant impairs seedling establishment by blocking peroxisome maintenance.拟南芥尿酸氧化酶突变体中尿酸的积累通过阻碍过氧化物酶体的维持而损害幼苗的建立。
Plant Cell. 2014 Jul;26(7):3090-100. doi: 10.1105/tpc.114.124008. Epub 2014 Jul 22.
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Polyploid evolution of the Brassicaceae during the Cenozoic era.新生代时期十字花科的多倍体进化
Plant Cell. 2014 Jul;26(7):2777-91. doi: 10.1105/tpc.114.126391. Epub 2014 Jul 17.
6
Identification of two pentatricopeptide repeat genes required for RNA editing and zinc binding by C-terminal cytidine deaminase-like domains.鉴定两个五肽重复基因,这些基因对于 RNA 编辑和锌结合所必需的 C 端胞嘧啶脱氨酶样结构域。
J Biol Chem. 2013 Dec 20;288(51):36519-29. doi: 10.1074/jbc.M113.485755. Epub 2013 Nov 5.
7
Plant purine nucleoside catabolism employs a guanosine deaminase required for the generation of xanthosine in Arabidopsis.植物嘌呤核苷分解代谢利用了一种在拟南芥中生成黄苷所必需的鸟苷脱氨酶。
Plant Cell. 2013 Oct;25(10):4101-9. doi: 10.1105/tpc.113.117184. Epub 2013 Oct 15.
8
The ureide-degrading reactions of purine ring catabolism employ three amidohydrolases and one aminohydrolase in Arabidopsis, soybean, and rice.在拟南芥、大豆和水稻中,嘌呤环分解代谢的尿素降解反应需要三种酰胺水解酶和一种氨基水解酶。
Plant Physiol. 2013 Oct;163(2):672-81. doi: 10.1104/pp.113.224261. Epub 2013 Aug 12.
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Advances in the development of nucleoside and nucleotide analogues for cancer and viral diseases.核苷和核苷酸类似物在癌症和病毒疾病方面的研发进展。
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A program for annotating and predicting the effects of single nucleotide polymorphisms, SnpEff: SNPs in the genome of Drosophila melanogaster strain w1118; iso-2; iso-3.一个用于注释和预测单核苷酸多态性影响的程序,即SnpEff:黑腹果蝇品系w1118、iso-2、iso-3基因组中的单核苷酸多态性。
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拟南芥的九个胞嘧啶脱氨酶样基因中,八个是假基因,只有一个是体内维持嘧啶稳态所必需的。

Of the Nine Cytidine Deaminase-Like Genes in Arabidopsis, Eight Are Pseudogenes and Only One Is Required to Maintain Pyrimidine Homeostasis in Vivo.

作者信息

Chen Mingjia, Herde Marco, Witte Claus-Peter

机构信息

Leibniz University Hannover, Institute of Plant Nutrition, Department of Molecular Nutrition and Biochemistry of Plants, 30419 Hannover, Germany.

Leibniz University Hannover, Institute of Plant Nutrition, Department of Molecular Nutrition and Biochemistry of Plants, 30419 Hannover, Germany

出版信息

Plant Physiol. 2016 Jun;171(2):799-809. doi: 10.1104/pp.15.02031. Epub 2016 Mar 31.

DOI:10.1104/pp.15.02031
PMID:27208239
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4902590/
Abstract

CYTIDINE DEAMINASE (CDA) catalyzes the deamination of cytidine to uridine and ammonia in the catabolic route of C nucleotides. The Arabidopsis (Arabidopsis thaliana) CDA gene family comprises nine members, one of which (AtCDA) was shown previously in vitro to encode an active CDA. A possible role in C-to-U RNA editing or in antiviral defense has been discussed for other members. A comprehensive bioinformatic analysis of plant CDA sequences, combined with biochemical functionality tests, strongly suggests that all Arabidopsis CDA family members except AtCDA are pseudogenes and that most plants only require a single CDA gene. Soybean (Glycine max) possesses three CDA genes, but only two encode functional enzymes and just one has very high catalytic efficiency. AtCDA and soybean CDAs are located in the cytosol. The functionality of AtCDA in vivo was demonstrated with loss-of-function mutants accumulating high amounts of cytidine but also CMP, cytosine, and some uridine in seeds. Cytidine hydrolysis in cda mutants is likely caused by NUCLEOSIDE HYDROLASE1 (NSH1) because cytosine accumulation is strongly reduced in a cda nsh1 double mutant. Altered responses of the cda mutants to fluorocytidine and fluorouridine indicate that a dual specific nucleoside kinase is involved in cytidine as well as uridine salvage. CDA mutants display a reduction in rosette size and have fewer leaves compared with the wild type, which is probably not caused by defective pyrimidine catabolism but by the accumulation of pyrimidine catabolism intermediates reaching toxic concentrations.

摘要

胞苷脱氨酶(CDA)在C核苷酸的分解代谢途径中催化胞苷脱氨生成尿苷和氨。拟南芥(Arabidopsis thaliana)CDA基因家族包含9个成员,其中一个成员(AtCDA)先前已在体外被证明编码一种活性CDA。对于其他成员,已讨论了其在C到U RNA编辑或抗病毒防御中的可能作用。对植物CDA序列进行的全面生物信息学分析,结合生化功能测试,有力地表明除AtCDA外,所有拟南芥CDA家族成员都是假基因,并且大多数植物仅需要一个CDA基因。大豆(Glycine max)有三个CDA基因,但只有两个编码功能酶,且只有一个具有非常高的催化效率。AtCDA和大豆CDA位于细胞质中。功能丧失突变体在种子中积累大量胞苷,但也积累CMP、胞嘧啶和一些尿苷,这证明了AtCDA在体内的功能。cda突变体中的胞苷水解可能是由核苷水解酶1(NSH1)引起的,因为在cda nsh1双突变体中胞嘧啶积累显著减少。cda突变体对氟胞苷和氟尿苷的反应改变表明,一种双特异性核苷激酶参与了胞苷以及尿苷的补救合成。与野生型相比,cda突变体的莲座叶大小减小且叶片数量减少,这可能不是由嘧啶分解代谢缺陷引起的,而是由达到有毒浓度的嘧啶分解代谢中间体的积累导致的。