Literature DB >> 19717526

Global microsatellite content distinguishes humans, primates, animals, and plants.

C L Galindo1, L J McIver, J F McCormick, M A Skinner, Y Xie, R A Gelhausen, K Ng, N M Kumar, H R Garner.   

Abstract

Microsatellites are highly mutable, repetitive sequences commonly used as genetic markers, but they have never been studied en masse. Using a custom microarray to measure hybridization intensities of every possible repetitive nucleotide motif from 1-mers to 6-mers, we examined 25 genomes. Here, we show that global microsatellite content varies predictably by species, as measured by array hybridization signal intensities, correlating with established taxonomic relationships, and particular motifs are characteristic of one species versus another. For instance, hominid-specific microsatellite motifs were identified despite alignment of the human reference, Celera, and Venter genomic sequences indicating substantial variation (30-50%) among individuals. Differential microsatellite motifs were mainly associated with genes involved in developmental processes, whereas those found in intergenic regions exhibited no discernible pattern. This is the first description of a method for evaluating microsatellite content to classify individual genomes.

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Year:  2009        PMID: 19717526      PMCID: PMC2782327          DOI: 10.1093/molbev/msp192

Source DB:  PubMed          Journal:  Mol Biol Evol        ISSN: 0737-4038            Impact factor:   16.240


  36 in total

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3.  Evidence for the regulation of alternative splicing via complementary DNA sequence repeats.

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5.  Microsatellite polymorphism in natural populations of wild emmer wheat, Triticum dicoccoides, in Israel.

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6.  Climatic effects on microsatellite diversity in wild emmer wheat (Triticum dicoccoides) at the Yehudiyya microsite, Israel.

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8.  The diploid genome sequence of an individual human.

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1.  Sporadic breast cancer patients' germline DNA exhibit an AT-rich microsatellite signature.

Authors:  Cristi L Galindo; Lauren J McIver; Hongseok Tae; John F McCormick; Michael A Skinner; Ina Hoeschele; Cheryl M Lewis; John D Minna; David A Boothman; Harold R Garner
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Authors:  L J McIver; J W Fondon; M A Skinner; H R Garner
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6.  Patterns of evolutionary conservation of microsatellites (SSRs) suggest a faster rate of genome evolution in Hymenoptera than in Diptera.

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7.  A species independent universal bio-detection microarray for pathogen forensics and phylogenetic classification of unknown microorganisms.

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9.  Patterns of microsatellite distribution across eukaryotic genomes.

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10.  Life cycle of an n-globin pseudogene microsatellite locus.

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