Sequence-discrete species for prokaryotes and other microbes:A historical perspective and pending issues  被引量：1

作　　者：Konstantinos T.Konstantinidis 

机构地区：[1]School of Civil and Environmental Engineering,and School of Biological Sciences,Georgia Institute of Technology,Atlanta,Georgia,USA

出　　处：《mLife》2023年第4期341-349,共9页微生物（英文）

基　　金：supported by the Us National Science Foundation (Awards Nos.1759831 and 2129823).

摘　　要：Whether prokaryotes,and other microorganisms,form distinct clusters that can be recognized as species remains an issue of paramount theoretical as well as practical consequence in identifying,regulating,and communicating about these organisms.In the past decade,comparisons of thousands of genomes of isolates and hundreds of metagenomes have shown that prokaryotic diversity may be predominantly organized in such sequence-discrete clusters,albeit organisms of intermediate relatedness between the identified clusters are also frequently found.Accumulating evidence suggests,however,that the latter“intermediate”organisms show enough ecological and/or functional distinctiveness to be considered different species.Notably,the area of discontinuity between clusters often—but not always—appears to be around 85%–95%genome-average nucleotide identity,consistently among different taxa.More recent studies have revealed remarkably similar diversity patterns for viruses and microbial eukaryotes as well.This high consistency across taxa implies a specific mechanistic process that underlies the maintenance of the clusters.The underlying mechanism may be a substantial reduction in the efficiency of homologous recombination,which mediates(successful)horizontal gene transfer,around 95%nucleotide identity.Deviations from the 95%threshold(e.g.,species showing lower intraspecies diversity)may be caused by ecological differentiation that imposes barriers to otherwise frequent gene transfer.While this hypothesis that clusters are driven by ecological differentiation coupled to recombination frequency(i.e.,higher recombination within vs.between groups)is appealing,the supporting evidence remains anecdotal.The data needed to rigorously test the hypothesis toward advancing the species concept are also outlined.

关 键 词：average nucleotide identity(ANI) genomovar homologous recombination METAGENOMICS strain 

分 类 号：Q93[生物学—微生物学]