Cohesion Group Approach for Evolutionary Analysis of Aspartokinase, an Enzyme That Feeds a Branched Network of Many Biochemical Pathways
Autor: | Roy A. Jensen, Mark D'Souza, Gary Xie, Chien-Chi Lo, Carol A. Bonner |
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Rok vydání: | 2009 |
Předmět: |
Reviews
Biology Microbiology Evolution Molecular chemistry.chemical_compound Phylogenetics Aromatic amino acids Animals Humans Aspartate kinase Amino Acid Sequence Aspartate Kinase Amino Acids Molecular Biology Gene Peptide sequence Phylogeny Recombination Genetic Genetics chemistry.chemical_classification Bacteria Genetic Variation Ectoine synthase Biosynthetic Pathways Amino acid Infectious Diseases chemistry Evolutionary biology Horizontal gene transfer biology.protein |
Zdroj: | Microbiology and Molecular Biology Reviews. 73:594-651 |
ISSN: | 1098-5557 1092-2172 |
DOI: | 10.1128/mmbr.00024-09 |
Popis: | SUMMARY Aspartokinase (Ask) exists within a variable network that supports the synthesis of 9 amino acids and a number of other important metabolites. Lysine, isoleucine, aromatic amino acids, and dipicolinate may arise from the ASK network or from alternative pathways. Ask proteins were subjected to cohesion group analysis, a methodology that sorts a given protein assemblage into groups in which evolutionary continuity is assured. Two subhomology divisions, ASK α and ASK β , have been recognized. The ASK α subhomology division is the most ancient, being widely distributed throughout the Archaea and Eukarya and in some Bacteria . Within an indel region of about 75 amino acids near the N terminus, ASK β sequences differ from ASK α sequences by the possession of a proposed ancient deletion. ASK β sequences are present in most Bacteria and usually exhibit an in-frame internal translational start site that can generate a small Ask subunit that is identical to the C-terminal portion of the larger subunit of a heterodimeric unit. Particularly novel are ask genes embedded in gene contexts that imply specialization for ectoine (osmotic agent) or aromatic amino acids. The cohesion group approach is well suited for the easy recognition of relatively recent lateral gene transfer (LGT) events, and many examples of these are described. Given the current density of genome representation for Proteobacteria , it is possible to reconstruct more ancient landmark LGT events. Thus, a plausible scenario in which the three well-studied and iconic Ask homologs of Escherichia coli are not within the vertical genealogy of Gammaproteobacteria , but rather originated via LGT from a Bacteroidetes donor, is supported. |
Databáze: | OpenAIRE |
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