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Vertebrate Genomes (vertebrate + genome)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Evolution at the host,retrovirus interface

BIOESSAYS, Issue 12 2006
Robert J. Gifford
Retroviruses are unusual amongst animal viruses in their capacity to integrate into host genomes and be transmitted vertically to host progeny. Vertebrate genomes contain numerous and diverse retrovirus-derived sequences reflecting a long co-evolutionary history during which genome invasion has occurred repeatedly, with wide-ranging evolutionary consequences. Over the past 10 years, a detailed picture of retroviral diversity throughout vertebrate genomes has emerged, revealing striking and informative patterns that differ markedly across species. The power of these data to deliver far-reaching insights into the biology and evolution of retroviruses has been significantly advanced by recent studies identifying ongoing genome invasion in wild populations,(1) and by the characterisation of conserved mechanisms of innate antiretroviral defence.(2,3) BioEssays 28: 1153,1156, 2006. © 2006 Wiley Periodicals, Inc. [source]

Differences in gene density on chicken macrochromosomes and microchromosomes

ANIMAL GENETICS, Issue 2 2000
J Smith
The chicken karyotype comprises six pairs of large macrochromosomes and 33 pairs of smaller microchromosomes1. Cytogenetic evidence suggests that microchromosomes may be more gene-dense than macrochromosomes. In this paper, we compare the gene densities on macrochromosomes and microchromosomes based on sequence sampling of cloned genomic DNA, and from the distribution of genes mapped by genetic linkage and physical mapping. From these different approaches we estimate that microchromosomes are twice as gene-dense as macrochromosomes and show that sequence sampling is an effective means of gene discovery in the chicken. Using this method we have also detected a conserved linkage between the genes for serotonin 1D receptor (HTR1D) and the platelet-activating factor receptor protein gene (PTAFR) on chicken chromosome 5 and human chromosome 1p34 ·3. Taken together with its advantages as an experimental animal, and public access to genetic and physical mapping resources, the chicken is a useful model genome for studies on the structure, function and evolution of the vertebrate genome. [source]

From genomes to morphology: a view from amphioxus

ACTA ZOOLOGICA, Issue 1 2010
Peter W. H. Holland
Abstract Holland, P.W.H. 2010. From genomes to morphology: a view from amphioxus. ,Acta Zoologica (Stockholm) 91: 81,86 As complete genome sequences are determined from an ever-increasing number of animal species, new opportunities are arising for comparative biology. For zoologists interested in the evolution of shape and form, however, there is a problem. The link between genome sequence and morphology is not direct and is obfuscated by complex and evolving genetic pathways, even when conserved regulatory genes are considered. Nonetheless, a large-scale comparison of genome sequences between extant chordates reveals an intriguing parallel between genotypic and phenotypic evolution. Tunicates have highly altered genomes, with loss of ancestral genes and shuffled genetic arrangements, while vertebrate genomes are also derived through gene loss and genome duplication. The recently sequenced amphioxus genome, in contrast, reveals much greater stasis on the cephalochordate lineage, in parallel to a less derived body plan. The opportunities and challenges for relating genome evolution to morphological evolution are discussed. [source]

Evolution at the host,retrovirus interface

BIOESSAYS, Issue 12 2006
Robert J. Gifford
Retroviruses are unusual amongst animal viruses in their capacity to integrate into host genomes and be transmitted vertically to host progeny. Vertebrate genomes contain numerous and diverse retrovirus-derived sequences reflecting a long co-evolutionary history during which genome invasion has occurred repeatedly, with wide-ranging evolutionary consequences. Over the past 10 years, a detailed picture of retroviral diversity throughout vertebrate genomes has emerged, revealing striking and informative patterns that differ markedly across species. The power of these data to deliver far-reaching insights into the biology and evolution of retroviruses has been significantly advanced by recent studies identifying ongoing genome invasion in wild populations,(1) and by the characterisation of conserved mechanisms of innate antiretroviral defence.(2,3) BioEssays 28: 1153,1156, 2006. © 2006 Wiley Periodicals, Inc. [source]

Dynamic regulation of DNA methylation coupled transcriptional repression: BDNF regulation by MeCP2

BIOESSAYS, Issue 3 2004
Paul A. Wade
A recurrent theme in eukaryotic genome regulation stipulates that the properties of DNA are strongly influenced by the nucleoprotein complex into which it is assembled. Methylation of cytosine residues in vertebrate genomes has been implicated in influencing the assembly of locally repressive chromatin architecture. Current models suggest that covalent modification of DNA results in heritable, long-term transcriptional silencing. In October of 2003, two manuscripts1,2 were published that challenge important aspects of this model, suggesting that modulation of both DNA methylation itself, as well as the machinery implicated in its interpretation, are involved in acute gene regulation. BioEssays 26:217,220, 2004. © 2004 Wiley Periodicals, Inc. [source]