Publications
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“Correlation between polymorphism of platelet alloantigen genes HPA-1-5 and type 2 diabetes complication by carotid atherosclerosis in a Chinese population”, vol. 14, pp. 4607-4615, 2015.
, “Effects of hydroxycamptothecin on the expression of matrix metalloproteinase-1 (MMP-1), tissue inhibitor of MMP-1, and type I collagen in rats with pulmonary fibrosis”, vol. 14, pp. 4625-4632, 2015.
, “Protective effects against and potential mechanisms underlying the effect of magnesium isoglycyrrhizinate in hypoxiareoxygenation injury in rat liver cells”, vol. 14, pp. 15453-15461, 2015.
, “Relevance of E-cadherin expression to EGFR-TKI molecular targeted therapy sensitivity/resistance and its clinical significance”, vol. 14, pp. 5785-5792, 2015.
, “Verification and evaluation of grain QTLs using RILs from TD70 x Kasalath in rice”, vol. 14, pp. 14882-14892, 2015.
, “Wnt1-induced MAFK expression promotes osteosarcoma cell proliferation”, vol. 14, pp. 7315-7325, 2015.
, “Discovery of somatic mutations in the progression of chronic myeloid leukemia by whole-exome sequencing”, vol. 13, pp. 945-953, 2014.
, “Eight polymorphic microsatellite markers for the spotted babylon, Babylonia areolata (Buccinidae)”, vol. 10, pp. 3230-3235, 2011.
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Carlsson J (2008). Effects of microsatellite null alleles on assignment testing. J. Hered. 99: 616-623.
http://dx.doi.org/10.1093/jhered/esn048
PMid:18535000
Chaitanawisuti N, Kritsanapuntu S and Natsukari Y (2002). Economic analysis of a pilot commercial production for spotted babylon, Babylonia areolata (Link, 1807), of marketable sizes using a flow-through culture system in Thailand. Aquacult. Res. 33: 1265-1272.
http://dx.doi.org/10.1046/j.1365-2109.2002.00790.x
Chen CY and Chou HN (1998). Transmission of the paralytic shellfish poisoning toxins, from dinoflagellate to gastropod. Toxicon 36: 515-522.
http://dx.doi.org/10.1016/S0041-0101(97)00093-7
Chen F, Ke CH, Wang DX, Chen J, et al. (2009). Isolation and characterization of microsatellite loci in Babylonia areolata and cross-species amplification in Babylonia formosae habei. Mol. Ecol. Resour. 9: 661-663.
http://dx.doi.org/10.1111/j.1755-0998.2008.02505.x
PMid:21564721
Chen F, Luo X, Wang D and Ke C (2011). Population structure of the spotted babylon, Babylonia areolata in three wild populations along the Chinese coastline revealed using AFLP fingerprinting. Biochem. Syst. Ecol. 38: 1103-1110.
http://dx.doi.org/10.1016/j.bse.2010.10.017
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.
Hualkasin W, Tongchuai W, Chotigeat W and Phongdara A (2008). Phylogeography of Ivory shell (Babylonia areolata) in the Gulf of Thailand revealed by COI gene structure and differentiation of shell color by ITS1 DNA. Songklanakarin J. Sci. Technol. 30: 141-146.
Kritsanapuntu S, Chaitanawisuti N, Santhaweesuk W and Natsukari Y (2006). Growth, production and economic evaluation of earthen ponds for monoculture and polyculture of juveniles spotted babylon (Babylonia areolata) to marketable sizes using large-scale operation. J. Shellfish Res. 25: 913-918.
Liang F, Mao Y, Yu X and Liu H (2005). Experiment on artificial breeding of Babylonia areolata. Trans. Oceanol. Limnol. 1: 79-85.
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http://dx.doi.org/10.1111/j.1365-294X.1995.tb00214.x
PMid:7735527
Reece KS, Ribeiro WL, Gaffney PM, Carnegie RB, et al. (2004). Microsatellite marker development and analysis in the eastern oyster (Crassostrea virginica): Confirmation of null alleles and non-Mendelian segregation ratios. J. Hered. 95: 346-352.
http://dx.doi.org/10.1093/jhered/esh058
PMid:15247315
Rice WR (1989). Analyzing tables of statistical tests. Evolution 43: 223-225.
http://dx.doi.org/10.2307/2409177
Schuelke M (2000). An economic method for the fluorescent labeling of PCR fragments. Nat. Biotechnol. 18: 233-234.
http://dx.doi.org/10.1038/72708
PMid:10657137
Supanopas P, Sretarugsa P, Kruatrachue M, Pokethitiyook P, et al. (2005). Acute and subchronic toxicity of lead to the spotted babylon, Babylonia areolata (Neogastropoda, Buccinidae). J. Shellfish Res. 24: 91-98.
van Oosterhout C, William FH, Derek PMW and Peter S (2004). Micro-checker: software for identifying and correcting genotyping errors in microsatellite data. Mol. Ecol. Notes 4: 535-538.
http://dx.doi.org/10.1111/j.1471-8286.2004.00684.x
Wang Y, Liu N, Shi Y, Gu Z, et al. (2009a). Development and characterization of sixteen new microsatellite markers for the white-lipped pearl oyster, Pinctada maxima (Jameson, 1901). Mol. Ecol. Res. 9: 1460-1466.
Wang Y, Wang A and Guo X (2009b). Development and characterization of 30 polymorphic microsatellite markers for the Atlantic surfclam, Spisula solidissima (Dillwyn, 1817). Mol. Ecol. Resour. 9: 1264-1267.
http://dx.doi.org/10.1111/j.1755-0998.2009.02660.x
PMid:21564897
Wang Y, Wang A and Guo X (2010a). Development and characterization of polymorphic microsatellite markers for the northern quahog Mercenaria mercenaria (Linnaeus, 1758). J. Shellfish Res. 29: 77-82.
http://dx.doi.org/10.2983/035.029.0130
Wang Y, Wang X, Wang A and Guo X (2010b). A 16-microsatellite multiplex assay for parentage assignment in the eastern oyster (Crassostrea virginica Gmelin). Aquaculture 308: S28-S33.
http://dx.doi.org/10.1016/j.aquaculture.2010.05.037
Wang Y, Wang F, Shi YH, Gu ZF, et al. (2011). Development and characterization of 60 microsatellite markers in the abalone Haliotis diversicolor. Genet. Mol. Res. 10: 860-866.
http://dx.doi.org/10.4238/vol10-2gmr1182
PMid:21574142
Weetman D, Hauser L, Shaw PW and Bayes M (2005). Microsatellite markers for the whelk Buccinum undatum. Mol. Ecol. Notes 5: 361-362.
http://dx.doi.org/10.1111/j.1471-8286.2005.00926.x