Literature DB >> 11965437

Phylogenetic analysis of invertebrate lysozymes and the evolution of lysozyme function.

Sana Bachali1, Muriel Jager, Alexandre Hassanin, Françoise Schoentgen, Pierre Jollès, Aline Fiala-Medioni, Jean S Deutsch.   

Abstract

We isolated and sequenced the cDNAs coding for lysozymes of six bivalve species. Alignment and phylogenetic analysis showed that, together with recently described bivalve lysozymes, the leech destabilase, and a number of putative proteins from extensive genomic and cDNA analyses, they belong to the invertebrate type of lysozymes (i type), first described by Jollès and Jollès (1975). We determined the genomic structure of the gene encoding the lysozyme of Mytilus edulis, the common mussel. We provide evidence that the central exon of this gene is homologous to the second exon of the chicken lysozyme gene, belonging to the c type. We propose that the origin of this domain can be traced back in evolution to the origin of bilaterian animals. Phylogenetic analysis suggests that i-type proteins form a monophyletic family.

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Year:  2002        PMID: 11965437     DOI: 10.1007/s00239-001-0061-6

Source DB:  PubMed          Journal:  J Mol Evol        ISSN: 0022-2844            Impact factor:   2.395


  44 in total

Review 1.  Lysozymes in the animal kingdom.

Authors:  Lien Callewaert; Chris W Michiels
Journal:  J Biosci       Date:  2010-03       Impact factor: 1.826

2.  The P5 protein from bacteriophage phi-6 is a distant homolog of lytic transglycosylases.

Authors:  Jimin Pei; Nick V Grishin
Journal:  Protein Sci       Date:  2005-03-31       Impact factor: 6.725

3.  Analysis of ESTs from Lutzomyia longipalpis sand flies and their contribution toward understanding the insect-parasite relationship.

Authors:  Rod J Dillon; Al C Ivens; Carol Churcher; Nancy Holroyd; Michael A Quail; Matthew E Rogers; M Bento Soares; Maria F Bonaldo; Thomas L Casavant; Mike J Lehane; Paul A Bates
Journal:  Genomics       Date:  2006-08-01       Impact factor: 5.736

Review 4.  Invertebrate lysozymes: diversity and distribution, molecular mechanism and in vivo function.

Authors:  Joris M Van Herreweghe; Chris W Michiels
Journal:  J Biosci       Date:  2012-06       Impact factor: 1.826

5.  Structural evidence for lack of inhibition of fish goose-type lysozymes by a bacterial inhibitor of lysozyme.

Authors:  Peter Kyomuhendo; Inge W Nilsen; Bjørn Olav Brandsdal; Arne O Smalås
Journal:  J Mol Model       Date:  2008-05-20       Impact factor: 1.810

6.  Cloning and molecular characterization of two invertebrate-type lysozymes from Anopheles gambiae.

Authors:  S M Paskewitz; B Li; M K Kajla
Journal:  Insect Mol Biol       Date:  2008-04-07       Impact factor: 3.585

7.  Expression of immune-response genes in lepidopteran host is suppressed by venom from an endoparasitoid, Pteromalus puparum.

Authors:  Qi Fang; Lei Wang; Jiaying Zhu; Yanmin Li; Qisheng Song; David W Stanley; Zunnu-Raen Akhtar; Gongyin Ye
Journal:  BMC Genomics       Date:  2010-09-02       Impact factor: 3.969

8.  Promoter complexity and tissue-specific expression of stress response components in Mytilus galloprovincialis, a sessile marine invertebrate species.

Authors:  Chrysa Pantzartzi; Elena Drosopoulou; Minas Yiangou; Ignat Drozdov; Sophia Tsoka; Christos A Ouzounis; Zacharias G Scouras
Journal:  PLoS Comput Biol       Date:  2010-07-08       Impact factor: 4.475

9.  Digestive function of lysozyme in synanthropic acaridid mites enables utilization of bacteria as a food source.

Authors:  Tomas Erban; Jan Hubert
Journal:  Exp Appl Acarol       Date:  2008-03-21       Impact factor: 2.132

10.  Transcriptome analysis of the venom gland of the scorpion Scorpiops jendeki: implication for the evolution of the scorpion venom arsenal.

Authors:  Yibao Ma; Ruiming Zhao; Yawen He; Songryong Li; Jun Liu; Yingliang Wu; Zhijian Cao; Wenxin Li
Journal:  BMC Genomics       Date:  2009-07-01       Impact factor: 3.969
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