Authors

S. B. Lee; C. Kaittanis; R. K. Jansen; J. B. Hostetler; L. J. Tallon; C. D. Town;H. Daniell

Comments

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Abbreviated Journal Title

BMC Genomics

Keywords

COMPLETE NUCLEOTIDE-SEQUENCE; RNA EDITING SITES; TOBACCO CHLOROPLASTS; BASAL ANGIOSPERM; TRANSGENIC CHLOROPLASTS; PLASTID CHROMOSOME; PROTECTIVE ANTIGEN; NICOTIANA-TABACUM; GENE ORGANIZATION; FLOWERING; PLANTS; Biotechnology & Applied Microbiology; Genetics & Heredity

Abstract

Background: Cotton (Gossypium hirsutum) is the most important fiber crop grown in 90 countries. In 2004-2005, US farmers planted 79% of the 5.7-million hectares of nuclear transgenic cotton. Unfortunately, genetically modified cotton has the potential to hybridize with other cultivated and wild relatives, resulting in geographical restrictions to cultivation. However, chloroplast genetic engineering offers the possibility of containment because of maternal inheritance of transgenes. The complete chloroplast genome of cotton provides essential information required for genetic engineering. In addition, the sequence data were used to assess phylogenetic relationships among the major clades of rosids using cotton and 25 other completely sequenced angiosperm chloroplast genomes. Results: The complete cotton chloroplast genome is 160,301 bp in length, with 112 unique genes and 19 duplicated genes within the IR, containing a total of 131 genes. There are four ribosomal RNAs, 30 distinct tRNA genes and 17 intron-containing genes. The gene order in cotton is identical to that of tobacco but lacks rp122 and infA. There are 30 direct and 24 inverted repeats 30 bp or longer with a sequence identity > = 90%. Most of the direct repeats are within intergenic spacer regions, introns and a 72 bp-long direct repeat is within the psaA and psaB genes. Comparison of protein coding sequences with expressed sequence tags ( ESTs) revealed nucleotide substitutions resulting in amino acid changes in ndhC, rp123, rp120, rps3 and clpP. Phylogenetic analysis of a data set including 61 protein-coding genes using both maximum likelihood and maximum parsimony were performed for 28 taxa, including cotton and five other angiosperm chloroplast genomes that were not included in any previous phylogenies. Conclusion: Cotton chloroplast genome lacks rp122 and infA and contains a number of dispersed direct and inverted repeats. RNA editing resulted in amino acid changes with significant impact on their hydropathy. Phylogenetic analysis provides strong support for the position of cotton in the Malvales in the eurosids II clade sister to Arabidopsis in the Brassicales. Furthermore, there is strong support for the placement of the Myrtales sister to the eurosid I clade, although expanded taxon sampling is needed to further test this relationship.

Journal Title

Bmc Genomics

Volume

7

Publication Date

1-1-2006

Document Type

Article

Language

English

First Page

12

WOS Identifier

WOS:000239342700001

ISSN

1471-2164

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