Publications

Found 19 results
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2015
X. M. Wang, Wu, W. L., Zhang, C. H., Zhang, Y. P., Li, W. L., and Huang, T., Analysis of the genetic diversity of beach plums by simple sequence repeat markers, vol. 14, pp. 9693-9702, 2015.
Y. P. Zhang, Sun, S. M., Fu, H. T., Ge, X. P., Qiao, H., Zhang, W. Y., Xiong, Y. W., Jiang, S. F., Gong, Y. S., and Jin, S. B., Characterization of the male-specific lethal 3 gene in the oriental river prawn, Macrobrachium nipponense, vol. 14, pp. 3106-3120, 2015.
Y. P. Zhang, E, Z. G., Jiang, H., Wang, L., Zhou, J., and Zhu, D. F., A comparative study of stress-related gene expression under single stress and intercross stress in rice, vol. 14, pp. 3702-3717, 2015.
Y. P. Zhang, Li, Y. Q., Lv, Y. T., and Wang, J. M., Effect of curcumin on the proliferation, apoptosis, migration, and invasion of human melanoma A375 cells, vol. 14, pp. 1056-1067, 2015.
L. X. Li, Dai, H. Y., Ding, X. P., Zhang, Y. P., Zhang, X. H., Ren, H. Y., and Chen, Z. Y., Investigation of AZF microdeletions in patients with Klinefelter syndrome, vol. 14, pp. 15140-15147, 2015.
S. F. Jiang, Zhang, Y. P., Sun, S. M., Gong, Y. S., Xiong, Y. W., Qiao, H., Zhang, W. Y., Jin, S. B., and Fu, H. T., Molecular cloning, characterization, and expression analysis of a Broad-Complex homolog during development in the oriental river prawn Macrobrachium nipponense, vol. 14, pp. 5141-5152, 2015.
L. Wei, Shao, W. W., Zhou, H. B., Ping, J., Li, L. M., and Zhang, Y. P., Rapid microsatellite development in Gekko japonicus using sequenced restriction-site associated DNA markers, vol. 14, pp. 14119-14122, 2015.
Y. P. Zhang, Zhao, Q., Tao, Y. Z., Niu, X. R., and Rui, L., Relationships between transient elastography values and liver fibrosis in chronic liver disease patients with normal or mildly abnormal aminotransferase levels, vol. 14, pp. 18172-18180, 2015.
2013
J. Ran, Han, T. T., Ding, X. P., Wei, X., Zhang, L. Y., Zhang, Y. P., Li, T. J., Nie, S. S., and Chen, L., Association study between Y-chromosome haplogroups and susceptibility to spermatogenic impairment in Han People from southwest China, vol. 12, pp. 59-66, 2013.
Ferlin A, Arredi B and Foresta C (2006). Genetic causes of male infertility. Reprod. Toxicol. 22: 133-141. http://dx.doi.org/10.1016/j.reprotox.2006.04.016 PMid:16806807   Jin L and Su B (2000). Natives or immigrants: modern human origin in east Asia. Nat. Rev. Genet. 1: 126-133. http://dx.doi.org/10.1038/35038565 PMid:11253652   Karafet TM, Mendez FL, Meilerman MB, Underhill PA, et al. (2008). New binary polymorphisms reshape and increase resolution of the human Y chromosomal haplogroup tree. Genome Res. 18: 830-838. http://dx.doi.org/10.1101/gr.7172008 PMid:18385274 PMCid:2336805   Kent-First M, Muallem A, Shultz J, Pryor J, et al. (1999). Defining regions of the Y-chromosome responsible for male infertility and identification of a fourth AZF region (AZFd) by Y-chromosome microdeletion detection. Mol. Reprod. Dev. 53: 27-41. http://dx.doi.org/10.1002/(SICI)1098-2795(199905)53:1<27::AID-MRD4>3.0.CO;2-W   Krausz C and McElreavey K (1999). Y chromosome and male infertility. Front Biosci. 4: E1-E8. http://dx.doi.org/10.2741/Krausz PMid:9889182   Krausz C and Degl'Innocenti S (2006). Y chromosome and male infertility: update, 2006. Front Biosci. 11: 3049-3061. http://dx.doi.org/10.2741/2032 PMid:16720375   Krausz C, Quintana-Murci L, Rajpert-De ME, Jorgensen N, et al. (2001). Identification of a Y chromosome haplogroup associated with reduced sperm counts. Hum. Mol. Genet. 10: 1873-1877. http://dx.doi.org/10.1093/hmg/10.18.1873 PMid:11555623   Krausz C, Forti G and McElreavey K (2003). The Y chromosome and male fertility and infertility. Int. J. Androl. 26: 70-75. http://dx.doi.org/10.1046/j.1365-2605.2003.00402.x PMid:12641824   Kuroki Y, Iwamoto T, Lee J, Yoshiike M, et al. (1999). Spermatogenic ability is different among males in different Y chromosome lineage. J. Hum. Genet. 44: 289-292. http://dx.doi.org/10.1007/s100380050162 PMid:10496069   Lahn BT, Pearson NM and Jegalian K (2001). The human Y chromosome, in the light of evolution. Nat. Rev. Genet. 2: 207-216. http://dx.doi.org/10.1038/35056058 PMid:11256072   Maurer B, Gromoll J, Simoni M and Nieschlag E (2001). Prevalence of Y chromosome microdeletions in infertile men who consulted a tertiary care medical centre: the Munster experience. Andrologia 33: 27-33. http://dx.doi.org/10.1046/j.1439-0272.2001.00406.x PMid:11167516   Simoni M, Bakker E and Krausz C (2004). EAA/EMQN best practice guidelines for molecular diagnosis of y-chromosomal microdeletions. State of the art 2004. Int. J. Androl. 27: 240-249. http://dx.doi.org/10.1111/j.1365-2605.2004.00495.x PMid:15271204   Su B, Xiao J, Underhill P, Deka R, et al. (1999). Y-Chromosome evidence for a northward migration of modern humans into Eastern Asia during the last Ice Age. Am. J. Hum. Genet. 65: 1718-1724. http://dx.doi.org/10.1086/302680 PMid:10577926 PMCid:1288383   Vogt PH (1998). Human chromosome deletions in Yq11, AZF candidate genes and male infertility: history and update. Mol. Hum. Reprod. 4: 739-744. http://dx.doi.org/10.1093/molehr/4.8.739 PMid:9733430   Vogt PH, Edelmann A, Kirsch S, Henegariu O, et al. (1996). Human Y chromosome azoospermia factors (AZF) mapped to different subregions in Yq11. Hum. Mol. Genet. 5: 933-943. http://dx.doi.org/10.1093/hmg/5.7.933 PMid:8817327   Wu B, Lu NX, Xia YK, Gu AH, et al. (2007). A frequent Y chromosome b2/b3 subdeletion shows strong association with male infertility in Han-Chinese population. Hum. Reprod. 22: 1107-1113. http://dx.doi.org/10.1093/humrep/del499 PMid:17204527   Y Chromosome Consortium (2002). A nomenclature system for the tree of human Y-chromosomal binary haplogroups. Genome Res. 12: 339-348. http://dx.doi.org/10.1101/gr.217602 PMid:11827954 PMCid:155271   Yang Y, Ma M, Li L, Zhang W, et al. (2008). Y chromosome haplogroups may confer susceptibility to partial AZFc deletions and deletion effect on spermatogenesis impairment. Hum. Reprod. 23: 2167-2172. http://dx.doi.org/10.1093/humrep/den229 PMid:18579508
T. T. Han, Ran, J., Ding, X. P., Li, L. J., Zhang, L. Y., Zhang, Y. P., Nie, S. S., and Chen, L., Cytogenetic and molecular analysis of infertile Chinese men: karyotypic abnormalities, Y-chromosome microdeletions, and CAG and GGN repeat polymorphisms in the androgen receptor gene, vol. 12, pp. 2215-2226, 2013.
Y. P. Zhang, Qiao, H., Zhang, W. Y., Sun, S. M., Jiang, S. F., Gong, Y. S., Xiong, Y. W., Jin, S. B., and Fu, H. T., Molecular cloning and expression analysis of two sex-lethal homolog genes during development in the oriental river prawn, Macrobrachium nipponense, vol. 12, pp. 4698-4711, 2013.
C. R. Li, Liang, D. D., Xu, R. F., Li, H., Zhang, Y. P., Qin, R. Y., Li, L., Wei, P. C., and Yang, J. B., Overexpression of an alternative oxidase gene, OsAOX1a, improves cold tolerance in Oryza sativa L., vol. 12, pp. 5424-5432, 2013.
2012
Y. P. Zhang, Tan, H. H., Cao, S. Y., Wang, X. C., Yang, G., and Fang, J. G., A novel strategy for identification of 47 pomegranate (Punica granatum) cultivars using RAPD markers, vol. 11, pp. 3032-3041, 2012.
Bousquet J, Simon L and Lalonde M (1990). DNA amplification from vegetative and sexual tissues of tree using polymerase chain reaction. Can. J. Forest Res. 20: 254-257. http://dx.doi.org/10.1139/x90-037   Cheng Z and Huang H (2009). SSR fingerprinting Chinese peach cultivars and landraces (Prunus persica) and analysis of their genetic relationships. Sci. Horticult. 120: 188-193. http://dx.doi.org/10.1016/j.scienta.2008.10.008   Damania AB (2005). The Pomegranate: Its Origin, Folklore, and Efficacious Medicinal Properties. In: Agriculture Heritage of Asia - Proceedings of the International Conference (Nene YL, ed.). Asian Agri History Foundation, Secunderabad, 175-183.   Demirsoy L, Demir T, Demirsoy H, Okumus A, et al. (2008). Identification of some sweet cherry cultivars grown in Amasya by RAPD markers. Acta Horticult. 795: 147-152.   D'Onofrio C, Lorenzis G, Giordani T, Natali L, et al. (2009). Retrotransposon-based molecular markers in grapevine species and cultivars identification and phylogenetic analysis. Acta Horticult. 827: 45-52.   Ebrahimi S, Sayed-Tabatabaei BE and Sharifnabi B (2010). Microsatellite isolation and characterization in pomegranate (Punica granatum L.). Iranian J. Biotechnol. 8: 156-163.   Elidemir AY and Uzun I (2009). Assessment of genetic diversity of some important grape cultivars, rootstocks, and wild grapes in Turkey using RAPD markers. Acta Horticult. 827: 275-278.   Ercisli S, Agar G, Yildirim N, Esitken A, et al. (2009). Identification of apricot cultivars in Turkey (Prunus armeniaca L.) using RAPD markers. Romanian Biotechnol. Letter 14: 4582-4588.   Fang J, Qiao Y, Zhang Z and Chao CT (2005). Genotyping fruiting-mei (Prunus mume Sieb. Et Zucc) cultivars using AFLP. Hort. Sci. 40: 325-328.   Fang J, Twito T, Zhang Z and Chao CT (2006). Genetic relationships among fruiting-mei (Prunus mume Sieb. et Zucc.) cultivars evaluated with AFLP and SNP markers. Genome 49: 1256-1264. http://dx.doi.org/10.1139/g06-097 PMid:17213907   Hasnaoui N, Messaoud M, Jemni C and Mokhtar T (2010). Molecular polymorphisms in Tunisian pomegranate (Punica granatum L.) as revealed by RAPD fingerprints. Diversity 2: 107-114. http://dx.doi.org/10.3390/d2010107   Javanshah A, Tajabadipour A and Mirzaei S (2007). Identification of a new phenotype (Siah Barg) of pistachio (Pistacia vera L.) with shiny-blackish green leaves using RAPD assay. Int. J. Agri. Biol. 9: 307-310.   LaRue JH (1980). Growing Pomegranates in California. Farm Advisor, Tulare County from: DANR Leaflet, California.   Levin GM (1994). Pomegranate (Punica granatum L.) plant genetic resources in Turkmenistan. Plant Genet. Resour. Newslett. 97: 31-36.   Mars M (1994). La Culture du Grenadier (Punica granatum L.) et du Figuier (Ficus carica L.) en Tunisia. First Meeting CIHEAM Coop. Res. Network on Underutilized. Fruit Trees, Zaragoza.   Masoud S, Saneghi A, Shahreiyari ZH, Noormohammadi Z, et al. (2008). RAPD and cytogenetic study of some pomegranate (Punica granatum L.) cultivars. Caryologia 61: 68-73.   Melgarejo P, Martínez JJ, Fca H, Martínez R, et al. (2009). Cultivar identification using 18S-28S rDNA intergenic spacer- RFLP in pomegranate (Punica granatum L.). Sci. Horticult. 120: 500-503. http://dx.doi.org/10.1016/j.scienta.2008.12.013   Murray GC and Thompson WF (1980). Rapid isolation of high molecular weight DNA. Nucl. Acids Res. 8: 4321- 4325. http://dx.doi.org/10.1093/nar/8.19.4321 PMid:7433111 PMCid:324241   Papp N, Szilvássy B, Abrankó L, Szabó T, et al. (2010). Main quality attributes and antioxidants in Hungarian sour cherries: identification of genotypes with enhanced functional properties. Int. J. Food Sci Tech. 45: 395-402. http://dx.doi.org/10.1111/j.1365-2621.2009.02168.x   Pirseyedi SM, Valizadehghan S, Mardi M, Ghaffari MR, et al. (2010). Isolation and characterization of novel microsatellite markers in pomegranate (Punica granatum L.). Int. J. Mol. Sci. 11: 2010-2016. http://dx.doi.org/10.3390/ijms11052010 PMid:20559498 PMCid:2885090   Sarkhosh A, Zamani Z, Fatahi R and Ebadi A (2006). RAPD markers reveal polymorphism among some Iranian pomegranate (Punica granatum L.) genotypes. Sci. Horticult. 111: 24-29. http://dx.doi.org/10.1016/j.scienta.2006.07.033   Simmonds NW (1976). Evolution of Crop Plants. Longman, London.   Talebi-Baddaf M, Sharifineia B and Bahar M (2003). Analys is of Genetic Diversity in Pomegranate Cultivars of Iran, Using Random Amplified Polymorphic DNA (RAPD) Markers. Proceeding of the Third National Congress of Biotechnology. Iran, 2: 343-345.   Wang ZG, Zhang ZH, Li H, Gao XY, et al. (2007). Identification of strawberry cultivars by RAPD and SCAR markers. Acta Horticult. Sin. 34: 591-596.   Williams JG, Kubelik AR, Livak KJ, Rafalski JA, et al. (1990). DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Res. 18: 6531-6535. http://dx.doi.org/10.1093/nar/18.22.6531 PMid:1979162 PMCid:332606
2010
T. Ning, Xiao, H., Li, J., Hua, S., and Zhang, Y. P., Adaptive evolution of the mitochondrial ND6 gene in the domestic horse, vol. 9, pp. 144-150, 2010.
Beall CM (2003). High-altitude adaptations. Lancet 362 (Suppl): s14-s15. http://dx.doi.org/10.1016/S0140-6736(03)15058-1   Creevey CJ and McInerney JO (2002). An algorithm for detecting directional and non-directional positive selection, neutrality and negative selection in protein coding DNA sequences. Gene 300: 43-51. http://dx.doi.org/10.1016/S0378-1119(02)01039-9   Excoffier L, Laval G and Schneider S (2005). Arlequin (version 3.0): An integrated software package for population genetics data analysis. Evol. Bioinform (Online) 1: 47-50. PMCid:2658868   Gering EJ, Opazo JC and Storz JF (2009). Molecular evolution of cytochrome b in high- and low-altitude deer mice (genus Peromyscus). Heredity 102: 226-235. http://dx.doi.org/10.1038/hdy.2008.124 PMid:19107138   Hassanin A, Ropiquet A, Couloux A and Cruaud C (2009). Evolution of the mitochondrial genome in mammals living at high altitude: new insights from a study of the tribe Caprini (Bovidae, Antilopinae). J. Mol. Evol. 68: 293-310. http://dx.doi.org/10.1007/s00239-009-9208-7 PMid:19294454   Hudson RR, Slatkin M and Maddison WP (1992). Estimation of levels of gene flow from DNA sequence data. Genetics 132: 583-589. PMid:1427045 PMCid:1205159   Lopez-Barneo J, Pardal R and Ortega-Saenz P (2001). Cellular mechanism of oxygen sensing. Annu. Rev. Physiol. 63: 259-287. http://dx.doi.org/10.1146/annurev.physiol.63.1.259 PMid:11181957   Monge C and Leon-Velarde F (1991). Physiological adaptation to high altitude: oxygen transport in mammals and birds. Physiol. Rev. 71: 1135-1172. PMid:1924550   Nielsen R (2005). Molecular signatures of natural selection. Annu. Rev. Genet. 39: 197-218. http://dx.doi.org/10.1146/annurev.genet.39.073003.112420 PMid:16285858   Outram AK, Stear NA, Bendrey R, Olsen S, et al. (2009). The earliest horse harnessing and milking. Science 323: 1332-1335. http://dx.doi.org/10.1126/science.1168594 PMid:19265018   Rozas J, Sanchez-DelBarrio JC, Messeguer X and Rozas R (2003). DnaSP, DNA polymorphism analyses by the coalescent and other methods. Bioinformatics 19: 2496-2497. http://dx.doi.org/10.1093/bioinformatics/btg359 PMid:14668244   Schmidt-Nielsen K (1997). Effect of High Altitude. In: Animal Physiology: Adaptation and Environment. Cambridge University Press, Cambridge, 209-210.   Tajima F (1989). Statistical method for testing the neutral mutation hypothesis by DNA polymorphism. Genetics 123: 585-595. PMid:2513255 PMCid:1203831   Weber RE (2007). High-altitude adaptations in vertebrate hemoglobins. Respir. Physiol. Neurobiol. 158: 132-142. http://dx.doi.org/10.1016/j.resp.2007.05.001 PMid:17561448   Wickler S and Greene H (2003). The horse and high altitude. Clin. Tech. Equine Pract. 2: 231-237. http://dx.doi.org/10.1053/S1534-7516(03)00066-0   Xu S, Luosang J, Hua S, He J, et al. (2007). High altitude adaptation and phylogenetic analysis of Tibetan horse based on the mitochondrial genome. J. Genet. Genomics 34: 720-729. http://dx.doi.org/10.1016/S1673-8527(07)60081-2   Yang Z (1997). PAML: a program package for phylogenetic analysis by maximum likelihood. Comput. Appl. Biosci. 13: 555-556. PMid:9367129