[Beg-evodevo] BMC Evo Bio :: Just how versatile are domains?
Just how versatile are domains? January Weiner 3rd, Andrew D. Moore and Erich Bornberg-Bauer BMC Evolutionary Biology 2008, 8:285doi:10.1186/1471-2148-8-285 Published: 14 October 2008 Background Creating new protein domain arrangements is a frequent mechanism of evolutionary innovation. While some domains always form the same combinations, others form many different arrangements. This ability, which is often referred to as versatility or promiscuity of domains, fits a random evolutionary model in which a domain's promiscuity is based on its relative frequency of domains. Results We show that there is a clear relationship across genomes between the promiscuity of a given domain and its frequency. However, the strength of this relationship differs for different domains. We thus redefine domain promiscuity by defining a new index, DVI ("domain versatility index"), which eliminates the effect of domain frequency. We explore links between a domain's versatility, when unlinked from abundance, and its biological properties. Conclusions Our results indicate that domains occurring as single domain proteins and domains appearing frequently at protein termini have a higher DVI. This is consistent with previous observations that the evolution of domain re-arrangements is primarily driven by fusion of pre-existing arrangements and single domains as well as loss of domains at protein termini. Furthermore, we studied the link between domain age, defined as the first appearance of a domain in the species tree, and the DVI. Contrary to previous studies based on domain promiscuity, it seems as if the DVI is age independent. Finally, we find that contrary to previously reported findings, versatility is lower in Eukaryotes. In summary, our measure of domain versatility indicates that a random attachment process is sufficient to explain the observed distribution of domain arrangements and that several views on domain promiscuity need to be revised. http://www.biomedcentral.com/1471-2148/8/285/abstract
elaba! was jij niet op vakantie :-)
Just how versatile are domains?
January Weiner 3rd, Andrew D. Moore and Erich Bornberg-Bauer
BMC Evolutionary Biology 2008, 8:285doi:10.1186/1471-2148-8-285 Published: 14 October 2008
Background
Creating new protein domain arrangements is a frequent mechanism of evolutionary innovation. While some domains always form the same combinations, others form many different arrangements. This ability, which is often referred to as versatility or promiscuity of domains, fits a random evolutionary model in which a domain's promiscuity is based on its relative frequency of domains. Results
We show that there is a clear relationship across genomes between the promiscuity of a given domain and its frequency. However, the strength of this relationship differs for different domains. We thus redefine domain promiscuity by defining a new index, DVI ("domain versatility index"), which eliminates the effect of domain frequency. We explore links between a domain's versatility, when unlinked from abundance, and its biological properties. Conclusions
Our results indicate that domains occurring as single domain proteins and domains appearing frequently at protein termini have a higher DVI. This is consistent with previous observations that the evolution of domain re-arrangements is primarily driven by fusion of pre-existing arrangements and single domains as well as loss of domains at protein termini. Furthermore, we studied the link between domain age, defined as the first appearance of a domain in the species tree, and the DVI. Contrary to previous studies based on domain promiscuity, it seems as if the DVI is age independent. Finally, we find that contrary to previously reported findings, versatility is lower in Eukaryotes. In summary, our measure of domain versatility indicates that a random attachment process is sufficient to explain the observed distribution of domain arrangements and that several views on domain promiscuity need to be revised.
http://www.biomedcentral.com/1471-2148/8/285/abstract
_______________________________________________ Beg-evodevo mailing list Beg-evodevo@psb.ugent.be https://maillist.psb.ugent.be/mailman/listinfo/beg-evodevo
-- ================================================================== Tine Blomme Tel:+32 (0)9 331 38 22 fax:+32 (0)9 3313809 VIB Department of Plant Systems Biology, Ghent University Technologiepark 927, 9052 Gent, BELGIUM tiblo@psb.ugent.be http://www.psb.ugent.be ==================================================================
participants (2)
-
Klaas Vandepoele -
Tine Blomme