Literature DB >> 30101085

cDNA cloning and mRNA expression of cat and dog Cdkal1.

Ichiro Yamamoto1, Shingo Ishikawa1, Li Gebin1, Hiroshi Takemitsu1, Megumi Fujiwara1, Nobuko Mori1, Yutaka Hatano1, Tomoko Suzuki1, Akihiro Mori1, Nobuhiro Nakao1, Koh Kawasumi1, Toshinori Sako1, Toshiro Arai1.   

Abstract

The cyclin-dependent kinase 5 regulatory subunit-associated protein 1-like 1 (CDKAL1) gene encodes methylthiotransferase, and the gene contains risk variants for type 2 diabetes in humans. In this study, we performed complementary DNA cloning for Cdkal1 in the cat and dog and characterized the tissue expression profiles of its messenger RNA. Cat and dog Cdkal1 complementary DNA encoded 576 and 578 amino acids, showing very high sequence homology to mammalian CDKAL1 (>88.4%). Real-time polymerase chain reaction analyses revealed that Cdkal1 messenger RNA is highly expressed in smooth muscle and that tissue distribution of Cdkal1 is similar in cats and dogs. Genotyping analysis of single-nucleotide polymorphism for cat Cdkal1 revealed that obese cats had different tendencies from normal cats. These findings suggest that the cat and dog Cdkal1 gene is highly conserved among mammals and that cat Cdkal1 may be a candidate marker for genetic diagnosis of obesity.

Entities:  

Keywords:  Cdkal1; Q-PCR; cDNA cloning; cat; dog; obese

Year:  2012        PMID: 30101085      PMCID: PMC6067665          DOI: 10.2147/VMRR.S32540

Source DB:  PubMed          Journal:  Vet Med (Auckl)        ISSN: 2230-2034


  14 in total

1.  TRAM, a predicted RNA-binding domain, common to tRNA uracil methylation and adenine thiolation enzymes.

Authors:  V Anantharaman; E V Koonin; L Aravind
Journal:  FEMS Microbiol Lett       Date:  2001-04-13       Impact factor: 2.742

2.  Common variants at CDKAL1 and KLF9 are associated with body mass index in east Asian populations.

Authors:  Yukinori Okada; Michiaki Kubo; Hiroko Ohmiya; Atsushi Takahashi; Natsuhiko Kumasaka; Naoya Hosono; Shiro Maeda; Wanqing Wen; Rajkumar Dorajoo; Min Jin Go; Wei Zheng; Norihiro Kato; Jer-Yuarn Wu; Qi Lu; Tatsuhiko Tsunoda; Kazuhiko Yamamoto; Yusuke Nakamura; Naoyuki Kamatani; Toshihiro Tanaka
Journal:  Nat Genet       Date:  2012-02-19       Impact factor: 38.330

Review 3.  Functional loss of Cdkal1, a novel tRNA modification enzyme, causes the development of type 2 diabetes.

Authors:  Fan-Yan Wei; Kazuhito Tomizawa
Journal:  Endocr J       Date:  2011-09-08       Impact factor: 2.349

4.  Deficit of tRNA(Lys) modification by Cdkal1 causes the development of type 2 diabetes in mice.

Authors:  Fan-Yan Wei; Takeo Suzuki; Sayaka Watanabe; Satoshi Kimura; Taku Kaitsuka; Atsushi Fujimura; Hideki Matsui; Mohamed Atta; Hiroyuki Michiue; Marc Fontecave; Kazuya Yamagata; Tsutomu Suzuki; Kazuhito Tomizawa
Journal:  J Clin Invest       Date:  2011-08-15       Impact factor: 14.808

5.  Beta cell glucose sensitivity is decreased by 39% in non-diabetic individuals carrying multiple diabetes-risk alleles compared with those with no risk alleles.

Authors:  L Pascoe; T M Frayling; M N Weedon; A Mari; A Tura; E Ferrannini; M Walker
Journal:  Diabetologia       Date:  2008-08-22       Impact factor: 10.122

6.  Common variants of the novel type 2 diabetes genes CDKAL1 and HHEX/IDE are associated with decreased pancreatic beta-cell function.

Authors:  Laura Pascoe; Andrea Tura; Sheila K Patel; Ibrahim M Ibrahim; Ele Ferrannini; Eleftheria Zeggini; Michael N Weedon; Andrea Mari; Andrew T Hattersley; Mark I McCarthy; Timothy M Frayling; Mark Walker
Journal:  Diabetes       Date:  2007-09-05       Impact factor: 9.461

7.  Meta-analysis identifies common variants associated with body mass index in east Asians.

Authors:  Wanqing Wen; Yoon-Shin Cho; Wei Zheng; Rajkumar Dorajoo; Norihiro Kato; Lu Qi; Chien-Hsiun Chen; Ryan J Delahanty; Yukinori Okada; Yasuharu Tabara; Dongfeng Gu; Dingliang Zhu; Christopher A Haiman; Zengnan Mo; Yu-Tang Gao; Seang-Mei Saw; Min-Jin Go; Fumihiko Takeuchi; Li-Ching Chang; Yoshihiro Kokubo; Jun Liang; Mei Hao; Loïc Le Marchand; Yi Zhang; Yanling Hu; Tien-Yin Wong; Jirong Long; Bok-Ghee Han; Michiaki Kubo; Ken Yamamoto; Mei-Hsin Su; Tetsuro Miki; Brian E Henderson; Huaidong Song; Aihua Tan; Jiang He; Daniel P-K Ng; Qiuyin Cai; Tatsuhiko Tsunoda; Fuu-Jen Tsai; Naoharu Iwai; Gary K Chen; Jiajun Shi; Jianfeng Xu; Xueling Sim; Yong-Bing Xiang; Shiro Maeda; Rick T H Ong; Chun Li; Yusuke Nakamura; Tin Aung; Naoyuki Kamatani; Jian-Jun Liu; Wei Lu; Mitsuhiro Yokota; Mark Seielstad; Cathy S J Fann; Jer-Yuarn Wu; Jong-Young Lee; Frank B Hu; Toshihiro Tanaka; E Shyong Tai; Xiao-Ou Shu
Journal:  Nat Genet       Date:  2012-02-19       Impact factor: 38.330

8.  Examination of type 2 diabetes loci implicates CDKAL1 as a birth weight gene.

Authors:  Jianhua Zhao; Mingyao Li; Jonathan P Bradfield; Kai Wang; Haitao Zhang; Patrick Sleiman; Cecilia E Kim; Kiran Annaiah; Wendy Glaberson; Joseph T Glessner; F George Otieno; Kelly A Thomas; Maria Garris; Cuiping Hou; Edward C Frackelton; Rosetta M Chiavacci; Robert I Berkowitz; Hakon Hakonarson; Struan F A Grant
Journal:  Diabetes       Date:  2009-07-10       Impact factor: 9.461

Review 9.  [Functions of Cdk5 in non-neuronal tissues: focusing on regulation of insulin secretion].

Authors:  Kazuhito Tomizawa
Journal:  Tanpakushitsu Kakusan Koso       Date:  2009-06

10.  Replication of genome-wide association signals in UK samples reveals risk loci for type 2 diabetes.

Authors:  Eleftheria Zeggini; Michael N Weedon; Cecilia M Lindgren; Timothy M Frayling; Katherine S Elliott; Hana Lango; Nicholas J Timpson; John R B Perry; Nigel W Rayner; Rachel M Freathy; Jeffrey C Barrett; Beverley Shields; Andrew P Morris; Sian Ellard; Christopher J Groves; Lorna W Harries; Jonathan L Marchini; Katharine R Owen; Beatrice Knight; Lon R Cardon; Mark Walker; Graham A Hitman; Andrew D Morris; Alex S F Doney; Mark I McCarthy; Andrew T Hattersley
Journal:  Science       Date:  2007-04-26       Impact factor: 47.728
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