[1] AULIYA M, MAUSFELD P, SCHMITZ A, et al. Review of the reticulated python (Python reticulatus Schneider, 1801) with the description of new subspecies from Indonesia[J]. Naturwissenschaften, 2002, 89(5):201-213.
[2] International Union for Conservation of Nature and Natural Resource (IUCN). The IUCN red list of threatened species[J]. J Fish Biol, 2013, 73(8):2068-2074.
[3] MURRAY-DICKSON G, GHAZALI M, OGDEN R, et al. Phylogeography of the reticulated python (Malayopython reticulatus ssp.):conservation implications for the worlds' most traded snake species[J]. PLoS One, 2017, 12(8):e0182049.
[4] REYNOLDS G R, NIEMILLER M L, REVELL L J. Toward a Tree-of-Life for the boas and pythons:multilocus species-level phylogeny with unprecedented taxon sampling[J]. Mol Phylogenet Evol, 2014, 71(1):201-213.
[5] GREEN M R, SAMBROOK J. Molecular Cloning:A Laboratory Manual[M]. 4th Ed. New York:Cold Spring Harbor Laboratory Press, 2000.
[6] TAUMURA K, PETERSON D, PETERSON N, et al. MEGA5:molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods[J]. Mol Biol Evol, 2011, 28(10):2731-2739.
[7] KING S R B, SCHOENCEKER K A, FIKE J A, et al. Long-term persistence of horse fecal DNA in the environment makes equids particularly good candidates for noninvasive sampling[J]. Ecol Evol, 2018, 8(8):4053-4064.
[8] KHEDKAR T, SHARMA R, TIKNAIK A, et al. DNA barcoding using skin exuviates can improve identification and biodiversity studies of snakes[J]. Mitochondrial DNA, 2016, 27(1):499-507.
[9] 石林春, 陈俊, 刘冬, 等.基于COI条形码的中药材蛇蜕及其易混伪品的DNA分子鉴定[J].世界科学技术-中医药现代化, 2014(2):284-287.

SHI Linchun, CHEN Jun, LIU Dong, et al. Molecular identification of sperentis periostracum and its adulterants based on COI sequence[J]. World Sci Technol Modernization Tradit Chin Med, 2014(2):284-287.
[10] FIGUEROA A, MCKELVY A D, GRISMER L L, et al. A species-level phylogeny of extant snakes with description of a new colubrid subfamily and genus[J]. PLoS One, 2016, 11(9):e0161070. doi:10.1371/journal.pone.0161070.
[11] 李恩.基于线粒体基因组的蛇亚目系统发生关系的探讨[D].芜湖: 安徽师范大学, 2014.

LI En. The Phylogenetic Relationships of Suborder Serpentes Based on the Complete Mitochondrial Genomes[D]. Wuhu: Anhui Normal University, 2014.
[12] JIANG Z J, CASTOE T A, AUSTIN C C, et al. Comparative mitochondrial genomics of snakes:extraordinary substitution rate dynamics and functionality of the duplicate control region[J]. BMC Evol Biol, 2007, 7(1):123. doi:10.1186/1471-2148-7-123.
[13] SANO N, KURABAYASHI A, FUJII T, et al. Complete nucleotide sequence of the mitochondrial genome of Schlegel's tree frog Rhacophorus schlegelii (family Rhacophoridae):duplicated control regions and gene rearrangements[J]. Genes Genet Syst, 2005, 80(3):213-224.
[14] INOUE J G, MIYA M, TSUKAMOTO K, et al. Evolution of the deep-sea gulper eel mitochondrial genomes:large-scale gene rearrangements originated within the eels[J]. Mol Biol Evol, 2003, 20(11):1917-1924.
[15] ABBOTT C L, DOUBLE M C, TRUEMAN J W, et al. An unusual source of apparent mitochondrial heteroplasmy:duplicate mitochondrial control regions in Thalassarche albatrosses[J]. Mol Ecol, 2010, 14(11):3605-3613.