Rapid isolation of gene homologs across taxa: Efficient identification and isolation of gene orthologs from non-model organism genomes, a technical report
Rapid isolation of gene homologs across taxa: Efficient identification and isolation of gene orthologs from non-model organism genomes, a technical report
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Date
2011-03-01
Authors
Heffer, Alison
Pick, Leslie
Advisor
Citation
Heffer, A., Pick, L. Rapid isolation of gene homologs across taxa: Efficient identification and isolation of gene orthologs from non-model organism genomes, a technical report. EvoDevo 2, 7 (2011).
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Abstract
Background: Tremendous progress has been made in the field of evo-devo through comparisons of related genes
from diverse taxa. While the vast number of species in nature precludes a complete analysis of the molecular
evolution of even one single gene family, this would not be necessary to understand fundamental mechanisms
underlying gene evolution if experiments could be designed to systematically sample representative points along
the path of established phylogenies to trace changes in regulatory and coding gene sequence. This isolation of
homologous genes from phylogenetically diverse, representative species can be challenging, especially if the gene
is under weak selective pressure and evolving rapidly.
Results: Here we present an approach - Rapid Isolation of Gene Homologs across Taxa (RIGHT) - to efficiently
isolate specific members of gene families. RIGHT is based upon modification and a combination of degenerate
polymerase chain reaction (PCR) and gene-specific amplified fragment length polymorphism (AFLP). It allows
targeted isolation of specific gene family members from any organism, only requiring genomic DNA. We describe
this approach and how we used it to isolate members of several different gene families from diverse arthropods
spanning millions of years of evolution.
Conclusions: RIGHT facilitates systematic isolation of one gene from large gene families. It allows for efficient gene
isolation without whole genome sequencing, RNA extraction, or culturing of non-model organisms. RIGHT will be a
generally useful method for isolation of orthologs from both distant and closely related species, increasing sample size
and facilitating the tracking of molecular evolution of gene families and regulatory networks across the tree of life.