000 04350nab a22004097a 4500
001 G91152
003 MX-TxCIM
005 20230828200944.0
008 210929s2008 cc |||p|op||| 00| 0 chi d
022 _a0578-1752
040 _aMX-TxCIM
041 _achi
090 _aCIS-5403
100 0 _aYonggui Xiao
_91687
245 1 0 _aMolecular identification and distribution of the polyphenol oxidase genes in Chinese winter wheat cultivars
260 _aBeijing (China) :
_bAcademy of Agricultural Sciences,
_c2008.
340 _aComputer File|Printed
500 _aPeer review
500 _aPeer-review: Yes - Open Access: Yes|http://science.thomsonreuters.com/cgi-bin/jrnlst/jlresults.cgi?PC=MASTER&ISSN=0578-1752
520 _a【Objective】The aims of this study were to characterize the allelic distribution of PPO genes in Chinese winter wheat cultivars with molecular markers and analyze the association between PPO activity and different PPO alleles for the improvement of PPO activity in marker-assisted selection (MAS).【Method】A total of 311 Chinese wheat cultivars and advanced lines collected from four winter wheat regions (Experiment 1) and common parents in Shandong province (Experiment 2) were tested with the functional markers PPO18, PPO16 and PPO29 for the identification of four allelic variants Ppo-A1a, Ppo-A1b, Ppo-D1a and Ppo-D1b on chromosomes 2A and 2D.【Result】PPO18 could amplify a 685-bp and an 876-bp fragments in the cultivars with the allele Ppo-A1a (high PPO) and Ppo-A1b (low PPO), respectively. Two complementary dominant markers, PPO16 and PPO29, amplified a 713-bp and a 490-bp fragment in the genotypes with Ppo-D1a (low PPO) and Ppo-D1b (high PPO), respectively. The frequencies for Ppo-A1a, Ppo-A1b, Ppo-D1a and Ppo-D1b were 41.8%, 58.2%, 59.8% and 40.2%, in the 311 cultivars and advanced lines, respectively. Significant differences in PPO activities were detected between the genotypes with Ppo-A1a and those with Ppo-A1b (P <0.05), and between the genotypes for Ppo-D1a and those for Ppo-D1b. Frequencies of PPO allelic combinations for Ppo-A1a/Ppo-D1a, Ppo-A1a/Ppo-D1b, Ppo-A1b/Ppo-D1a and Ppo-A1b/Ppo-D1b were 27.3%, 14.5%, 32.5% and 25.7%, and highly significant differences in PPO activity were found among the four genotypes (P<0.05). Ppo-A1a was present as a major allele in middle and low Yangtze Valley winter wheat region and southwestern winter wheat region, with frequencies of 60.7% and 56.0%, respectively, whereas Ppo-A1b was found as a major allele in northern winter wheat region and Yellow and huai facultative winter wheat region, with frequencies of 65.6% and 60.3%, respectively. Ppo-D1a was dominant in northern winter wheat region, Yellow and Huai facultative winter wheat region, middle and low Yangtze Valley winter wheat region and southwestern winter wheat region, with frequencies of 65.6%, 53.6%, 75.0% and 76.0%, respectively.【Conclusion】PPO18, PPO16 and PPO29 were simple and stable functional markers that can accurately discriminate different alleles of PPO genes on chromosomes 2A and 2D, exhibiting high correlation between grain PPO activity and PPO genotypes. The alleles of low PPO activity were dominant in Chinese winter wheat regions. Therefore, employing the PPO markers to test parents and separating generations descendants in wheat breeding programs would help breeder to select the individuals with low PPO activity, accelerating the progress for the improvement of undesirable darkening of end-use product.
536 _aGlobal Wheat Program
546 _aText in English
594 _aINT2411|INT3297|INT2411
650 7 _aWheat
_2AGROVOC
_91310
650 7 _aCatechol oxidase
_2AGROVOC
_93030
650 7 _aGenes
_2AGROVOC
_93563
650 7 _aGenetic markers
_2AGROVOC
_91848
650 7 _aMarker-assisted selection
_2AGROVOC
_910737
700 1 _aXinyao He
_8INT3297
_9913
_gGlobal Wheat Program
700 0 _aJianjun Liu
_91688
700 0 _aSun Dao-jie
_920744
700 0 _aXianchun Xia
_9377
700 1 _aHe Zhonghu
_gGlobal Wheat Program
_8INT2411
_9838
773 0 _tScientia Agricultura Sinica
_n635364
_gv. 41, no. 4, p. 954-960
_dBeijing (China) : Academy of Agricultural Sciences, 2008.
_wG445218
_x0578-1752
856 4 _yAccess only for CIMMYT Staff
_uhttps://hdl.handle.net/20.500.12665/1417
942 _cJA
_2ddc
_n0
999 _c27269
_d27269