Biomedical Engineering Reference
In-Depth Information
101. Dalton DA, Ma C, Shrestha S, Kitin P, Strauss S. Trade-offs between biomass growth and
inducible biosynthesis of polyhydroxybutyrate in transgenic poplar. Plant Biotech
J. 2011;9:759-67.
102. Zhang ZL, Liu ZL, Zhou BL, Chen S, Zhang XG. Transgenic cotton (
Gossypium hirsutum
L.)
with strength-enhanced fiber expressing rabbit keratin gene. Cotton Sci. 2004;16:72-6.
103. Huang QS, Liu X, Wang YQ, Wang DM, Yang KR, Li JP, Ge F. Transformation of spider silk
protein gene into the apical meristems of
Gossypium barbadense
via particle bombardment.
(Abstract in English). Xinjiang Agric Sci. 2004; 41:248-50.
104. Mei M, Syed NH, Gao W, Thaxton PM, Smith CW, Stelly DM, Chen ZJ. Genetic mapping
and QTL analysis of fiber-related traits in cotton (
Gossypium
). Theor Appl Genet.
2004;108:280-91.
105. Mammadov J, Aggarwal R, Buyyarapu R, Kumpatla S. SNP markers and their impact on
plant breeding. Int. J Plant Genomics 2012; 728398. doi: 10.115/2012/728398. Epub 2012
Dec 18.
106. Boopathi NM, Thiyagu K, Urbi B, Santhoshkumar M, Gopikrishnan A, et al. Marker-assisted
selection as next generation strategy for genetic improvement of productivity and quality: can
it be realized in cotton. Int J Plant Genomics. 2011;2011:670104. doi:
10.1155/2011/670104
.
Epub 2011 Mar 20.
107. Chee PW, Campbell BT. Bridging classical and molecular genetics of cotton fiber quality and
development. In: Paterson AH, editor. Plant genetics and genomics of cotton. New York:
Springer; 2009. p. 283-311.
108. Ma X, Ding Y, Zhou B, Guo W, Lv Y, Zhu X, Zhang T. QTL mapping in A-genome diploid
Asiatic cotton and their congruence analysis with AD-genome tetraploid in genus
Gossypium
.
J Genet Genomics. 2008;35(12):751-62.
109. Jenkins JN, McCarty JC, Wu JX, Saha S, Gutierrez O, Hayes R, Stelly DM. Genetic effects of
thirteen
Gossypium barbadense
L. Chromosome substitution lines in topcrosses with Upland
cotton cultivars: II. Fiber quality traits. Crop Sci. 2007;47:561-76.
110. Jiang CX, Wright RJ, El-Zik KM, Paterson AH. Polyploid formation created unique avenues
for response to selection in
Gossypium
(cotton). Proc Natl Acad Sci U S A. 1998;95:4419-24.
111. Kohel RJ, Yu JZ, Park Y-H, Lazo G. Molecular mapping and characterization of traits
controlling fiber quality in cotton. Euphytica. 2001;121:163-72.
112. Paterson AH, Saranga Y, Menz M, Jiang CX, Wright RJ. QTL analysis of genotype x
environment interactions affecting cotton fiber quality. Theor Appl Genet. 2003;106:384-96.
113. Lacape J-M, Nguyen T-B, Courtois B, Belot J-L, Giband M, Gourlot J-P, et al. QTL analysis
of cotton fiber quality using multiple
Gossypium hirsutum
_
Gossypium barbadense
back-
cross generations. Crop Sci. 2005;45:123-40.
114. Lacape J-M, Nguyen TB, Thibivilliers S, Courtois B, Bojinov BM, Cantrell RG, et al. A
combined RFLP-SSR-AFLP map of tetraploid cotton based on a
Gossypium hirsutum
Gossypium barbadense
backcross population. Genome. 2003;46:612-26.
115. Shen X, Cao Z, Singh R, Lubbers EL, Xu P, Smith CW, Paterson AH, Chee PW. Efficacy of
qFL-chr1, a quantitative trait locus for fiber length in cotton (
Gossypium
spp.). Crop Sci.
2011;51:2005-10.
116. Zhang TZ, Yuan Y, Yu J, Guo W, Kohel RJ. Molecular tagging of a major QTL for fiber
strength in Upland cotton and its marker-assisted selection. Theor Appl Genet.
2003;106:262-8.
117. Guo WZ, Zhang TZ, Ding YZ, Zhu YC, Shen XL, Zhu XF. Molecular marker assisted
selection and pyramiding of two QTLs for fiber strength in Upland cotton. (Abstract in
English). Yi Chuan Xue Bao. 2005; 32:1275-85.
118. Stelly DM, Saha S, Raska DA, Jenkins JN, McCarty JC, Guiterrez OA. Registration of
17 Upland (
Gossypium hirsutum
)
cotton germplasm lines disomic
for different
G. barbadense
chromosome or arm substitutions. Crop Sci. 2005;45:2663-5.
Search WWH ::
Custom Search