Page 13 - PGTv3no7

Basic HTML Version

Plant Gene and Trait 2012, Vol.3, No.7, 34
-
42
http://pgt.sophiapublisher.com
42
Jiang G.H., Xu C.G., Li X.H., He Y.Q., 2004, Characterization of the genetic
basic for yield and its component traits of revealed by doubled haploid
population, Acta Geneitca Sinica, 31(1): 63-72
Jonathan D.W., Justin O.B., Norman W., Gabriel T.T., Joseph R.E., Joanne
C., and Detlef W., 2005, Quantitative trait locus mapping and DNA
array hybridization identify an FLM deletion as a cause for natural
flowering-time variation, Proceedings of the National Academy of
Sciences., 102(7): 2460-2465 http://dx.doi.org/10.1073/pnas.0409474102
PMid:15695584 PMCid:548991
Hayes P.M., Liu B.H., Knapp S.J., Chen F., Jones B., Blake T., Franckowiak
J., Rasmusson D., Sorrells M., Ullrich S.E., Wesenberg D., and
Kleinhofs A., 1993, Quantitative trait locus effects and environment
interaction in a sample of North American barley germplasm, Theor
Appl Genet, 87(3): 392-401 http://dx.doi.org/10.1007/BF01184929
International Union for the Protection of New Varieties of Plants (UPOV),
April 9, 2003, Guidelines for the conduct of Tests for Distinctnedd,
Uniformity and Stability, Phalaenopsis
Lander E.S., and Botstein D., 1989, Mapping mendelian factors underlying
quantitative traits using RFLP linkage maps, Genetics, 121(1): 185-199
PMid:2563713 PMCid:1203601
Li Z.F., Wan J.M., Xia J.F., and Zhai H.Q., 2003, Mapping quantitative trait
loci underlying appearance quality of rice grains (Oryza sativaL), Acta
Genetica Sinica, 30(3): 251-259 PMid:12812091
Lincoln S., 1993, Mapping genes controlling quantitative traits using
MAPMAKER/QTL version 1.1, Whitehead Institute Technical Report,
Cambridge, Massachusetts
Liao L.J., Pan I.C., Chan Y.L., H Y.H., Chen W.H., and Chan M.T., 2004,
Transgene silencing in
Phalaenopsis
expressing the coat protein of
cymbidium mosaic virus is a manifestation of RNA-mediated resistance,
Molecular Breeding, 13(3): 229-242 http://dx.doi.org/10.1023/B:MO-
LB.0000022527.68551.30
McCouch S.R., Cho Y.G., Yano M., Paul E., Blinstrub M., Morishima H.,
and Kinoshita T., 1997, Report on QTL nomenclature, Rice Genetics
Newsletter, 14: 11-13
Paterson A.H., Damon S., Hewitt J.D., Zamir D., Rabinowitch H.D.,
Lincoln S.E., Lander E.S., and Tanksley S.D., 1991, Mendelian factors
underlying quantitative trait in tomato: Comparison across species,
generations and environments, Genetics, 127(1): 181-197 PMid:1673106
PMCid:1204303
Tanksley S.D., MedinaFilho H.P., and Rick C.M., 1982, Use of
naturally-occurring enzyme variation to detect and map genes
controlling quantitative traits in an interspecific backcross of tomato,
Heredity, 49: 11-25 http://dx.doi.org/10.1038/hdy.1982.61
Tinker N.A., Mather D.E., Rossnagel B.G., Kasha K.J., Kleinhofs A., Hayes
P.M., Falk D.E., Ferguson T., Shugar L.P., Legge W.G., Irvine R.B.,
Choo T.M., Briggs K.G., Uiirich S.E., Franckowiak J.D., Blake T.K.,
Graf R.J., Dofing S.M., Maroof M.A.S., Scoles G.J., Hoffman D.,
Dahleen L.S., Kilian A., Chen F.Q., Biyashev R.M., and Kudrna D.A.,
Steffenson B.J., 1996, Regions of the genome that affect agronomic
performance in two-row barly, Crop Science, 36(4): 1053-1062
http://dx.doi.org/10.2135/cropsci1996.0011183X003600040040x
Truco M.J., Randall L.B., Bloom A.J., and Clair D.A., 2000, Detection of
QTLs associated with shoot wilting and root ammonium uptake under
chilling temperatures in an interspecific backcross population from
Lycopersion esculentum×L.hirsutum, Theoretical and Applied Genetics,
101(7): 1082-1092 http://dx.doi.org/10.1007/s001220051583
Van Ooijen J.W., and Kyazma B.V., 2004, MapQTL®5, software for the
mapping of quantitative trait loci in experimental populations,
Wageningen, The Netherland
Wang G.L., Mackill D.J., Bonman J.M., McCouch S.R., Champoux M.C.,
and Nelson R.J., 1994, RFLP mapping of genes conferring complete a
durably resistant rice cultivar, Genetics, 136(4): 1421-1434 PMid:7912216
PMCid:1205921
Weller J.I., 1986, Maximum likelihood techniques for the mapping and analysis
of quantitative trait loci with the aid of genetic markers, Biometrics, 42(3):
627-640 http://dx.doi.org/10.2307/2531212 PMid:3567295
Xiao J., Li J., Yuan L., and Tanksley S.D., 1996, Identification of QTLs
affecting traits of agronomic importance in a recombinant inbred
population derived from a subspecific rice cross, Theor. Appl. Genet.,
92: 230-244 http://dx.doi.org/10.1007/BF00223380
Xu S.P., Zhang T.F., Liao F.X., and Lian F.Q., 2010, A review on studies of
phalaenopsis germplasm resources and breeding, Chinese Horticulture
Abstracts, 5: 27-30
Xu S.P., 2010, Construction of molecular genetic map and analysis of qtls
for some traits in
Phalaenopsis
, Thesis for M.S., The College of
Landscape and Art, Jiangxi Agricultural University, Supervisor: Liao
Feixiong
Zhang N., Su M.H., Xu S.X., and Lin Q.H., 2007, Radioactive breeding of
Phalaenopsis spp. using RAPD method, Subtropical Plant Science,
36(3): 19-22
Zhang S.T., 2004, Identify
Phal.amabilis
and
Phal.aphrodhe
by RAPD and
ISSR molecular markers, Proceedings of the Exhibition on New
Technology of Floriculture in 2004 Zhanghua Flower Expo, 163-166