特种经济动物饲养培养方案
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ruier123
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发表于 2016-01-16 11:23
楼主
西南大学 硕士研究生培养方案 西南大学研究生院制表 填表日期: 年 月 日修订日期: 年 月 日 一、学科(专业)主要研究方向
二、培养目标与学制及应修学分
三、课程设置(包括主文献研读、学术活动等必修环节)
2.按一级学科制定培养方案者应在专业必修课备注栏内标明所属二级学科。 3.必修环节在研究生毕业前必须完成,构成答辩的必备条件。 四、培养方式与方法
五、科研能力与水平及毕业与毕业论文的基本要求
六、学位论文的基本要求
七、主文献研读课程书目(列出本学科专业的必读文献,不够可另附页) [table] [tr] [td=1,1,26] 序 号 [/td] [td=1,1,264]著作或期刊的名称 [/td] [td=1,1,171]作者、出版单位及年月 [/td] [/tr] [tr] [td=1,1,26]1 [/td] [td=1,1,264] A draft sequence for the genome of the domesticated silkworm (Bombyx mori)[/td] [td=1,1,171] Qingyou Xia, Zeyang Zhou, Cheng Lu, et al. [/td] [/tr] [tr] [td=1,1,26] 2 [/td] [td=1,1,264] Complete Resequencing of 40 Genomes Reveals Domestication Events and Genes in Silkworm (Bombyx)[/td] [td=1,1,171] Qingyou Xia, Yiran Guo, Ze Zhang, et al. [/td] [/tr] [tr] [td=1,1,26] 3 [/td] [td=1,1,264] The genome of a lepidopteran model insect, the silkworm Bombyx mori[/td] [td=1,1,171] International Silkworm Genome, Consortium [/td] [/tr] [tr] [td=1,1,26] 4 [/td] [td=1,1,264] The genetics and genomics of the silkworm, Bombyx mori[/td] [td=1,1,171] Goldsmith Marian R, Shimada Toru, Abe Hiroaki, [/td] [/tr] [tr] [td=1,1,26] 5 [/td] [td=1,1,264] 中国家蚕基因组与21世纪丝绸之路[/td] [td=1,1,171] 向仲怀 [/td] [/tr] [tr] [td=1,1,26] 6 [/td] [td=1,1,264] 为丝绸之路重添异彩关于尽快启动“中国家蚕基因组计划”的建议[/td] [td=1,1,171] 向仲怀,卢良恕,石元春,等 [/td] [/tr] [tr] [td=1,1,26] 7 [/td] [td=1,1,264] 论"东桑西移"与东西部合作[/td] [td=1,1,171] 向仲怀 [/td] [/tr] [tr] [td=1,1,26] 8 [/td] [td=1,1,264] 家蚕基因组研究对蚕业学科和产业发展的影响[/td] [td=1,1,171] 向仲怀, 杨焕明, [/td] [/tr] [tr] [td=1,1,26] 9 [/td] [td=1,1,264] 国际鳞翅目昆虫基因组筑波会议与中国家蚕基因组[/td] [td=1,1,171] 向仲怀, [/td] [/tr] [tr] [td=1,1,26] 10 [/td] [td=1,1,264] Micro-based gene expression profiles in multiple tissues of the domesticated silkworm, Bombyx mori[/td] [td=1,1,171] Qingyou Xia, Daojun Cheng, Jun Duan, et al. [/td] [/tr] [tr] [td=1,1,26] 11 [/td] [td=1,1,264]SilkDB v2.0: a platform for silkworm (Bombyx mori) genome biology [/td] [td=1,1,171] Jun Duan, Ruiqiang Li, Daojun Cheng, et al.[/td] [/tr] [tr] [td=1,1,26] 12 [/td] [td=1,1,264] Silkworm nucleotide databases--current trends and future prospects[/td] [td=1,1,171] Koshy Nicole, Ponnuvel Kangayam M, Sinha Randhir K,et al. [/td] [/tr] [tr] [td=1,1,26] 13 [/td] [td=1,1,264] Repression of tyrosine hydroxylase is responsible for the sex-linked chocolate mutation of the silkworm, Bombyx mori.[/td] [td=1,1,171] Liu C, Yamamoto K, Cheng T, et al. [/td] [/tr] [tr] [td=1,1,26] 14 [/td] [td=1,1,264] Mutations of an arylalkylamine-N-acetyltransferase, Bm-iAANAT, are responsible for silkworm melanism mutant [/td] [td=1,1,171] Fang-yin Dai, Liang Qiao, Xiao-ling Tong, et al. [/td] [/tr] [tr] [td=1,1,26] 15 [/td] [td=1,1,264] Molecular analysis of sex chromosome-linked mutants in the silkworm Bombyx mori[/td] [td=1,1,171] Fujii Tsuguru, Abe Hiroaki, Shimada Toru, [/td] [/tr] [tr] [td=1,1,26] 16 [/td] [td=1,1,264] Identification of the Bombyx Red Egg Gene Reveals Involvement of a Novel Transporter Family Gene in Late Steps of the Insect Ommochrome Biosynthesis Pathway[/td] [td=1,1,171] Osanai-Futahashi, Mizuko Tatematsu, Ken-ichiro Yamamoto, et.al [/td] [/tr] [tr] [td=1,1,26] 17 [/td] [td=1,1,264] A major facilitator superfamily protein participates in the reddish brown pigmentation in Bombyx mori[/td] [td=1,1,171] Zhao, Yunpo Zhang, Hao Li, Zhiqian Duan, et.al [/td] [/tr] [tr] [td=1,1,26] 18 [/td] [td=1,1,264] Highly efficient and specific genome editing in silkworm using custom TALENs[/td] [td=1,1,171] Sanyuan Ma, Shengling Zhang, Feng Wang, et al. [/td] [/tr] [tr] [td=1,1,26] 19 [/td] [td=1,1,264] Multiplex Genome Engineering Using CRISPR/Cas Systems[/td] [td=1,1,171] Le Cong, F. Ann Ran, David Cox, et al. [/td] [/tr] [tr] [td=1,1,26] 20 [/td] [td=1,1,264] A single-base deletion in an ABC transporter gene causes white eyes, white eggs, and translucent larval skin in the silkworm w-3(oe) mutant[/td] [td=1,1,171] Komoto Natuo, Guo-Xing Quan, Sezutsu Hideki,et al. [/td] [/tr] [tr] [td=1,1,26] 21 [/td] [td=1,1,264] FLP Recombinase-Mediated Site-Specific Recombination in Silkworm, Bombyx mori[/td] [td=1,1,171] Ding-Pei Long, Ai-Chun Zhao, Xue-Jiao Chen et al. [/td] [/tr] [tr] [td=1,1,26] 22 [/td] [td=1,1,264] Cre-mediated targeted gene activation in the middle silk glands of transgenic silkworms (Bombyx mori)[/td] [td=1,1,171] Jianping Duan, Hanfu Xu, Sanyuan Ma et al. [/td] [/tr] [tr] [td=1,1,26] 23 [/td] [td=1,1,264] Targeted mutagenesis in the silkworm Bombyx mori using zinc finger nuclease mRNA injection[/td] [td=1,1,171] Yoko Takasu, Isao Kobayashi, Kelly Beumer et al. [/td] [/tr] [tr] [td=1,1,26] 24 [/td] [td=1,1,264] Efficient disruption of endogenous Bombyx gene by TAL effector nucleases[/td] [td=1,1,171] Suresh Sajwana, Yoko Takasu, Toshiki Tamurab et al. [/td] [/tr] [tr] [td=1,1,26] 25 [/td] [td=1,1,264] Transgenic silkworms produce recombinant human type III procollagen in cocoons[/td] [td=1,1,171] Masahiro Tomita, Hiroto Munetsuna, Tsutomu Sato, Takahiro Adachi, et al. [/td] [/tr] [tr] [td=1,1,26] 26 [/td] [td=1,1,264] Production of a Non-Triple Helical Collagen a Chain in Transgenic Silkworms and Its Evaluation as a Gelatin Substitute for Cell Culture[/td] [td=1,1,171] Takahiro Adachi, Xiaobiao Wang, Tomoko Murata, et al. [/td] [/tr] [tr] [td=1,1,26] 27 [/td] [td=1,1,264] Silkworms transformed with chimeric silkworm/spider silk genes spin composite silk fibers with improved mechanical properties[/td] [td=1,1,171] Florence Teulé, Yun-Gen Miao ,Bong-Hee Sohn et al. [/td] [/tr] [tr] [td=1,1,26] 28 [/td] [td=1,1,264] Generation of a transgenic silkworm that secretes recombinant proteins in the sericin layer of cocoon: Production of recombinant human serum albumin[/td] [td=1,1,171] Shingo Ogawa,Masahiro Tomita,Katsuhiko Shimizu, Katsutoshi Yoshizato [/td] [/tr] [tr] [td=1,1,26] 29 [/td] [td=1,1,264] Germline transformation of the silkworm Bombyx mori L. using a piggyBac transposon-derived vector[/td] [td=1,1,171] Tamura T, Thibert C,Royer C,et al. [/td] [/tr] [tr] [td=1,1,26] 30 [/td] [td=1,1,264] New and highly efficient expression systems for expressing selectively foreign protein in the silk glands of transgenic silkworm[/td] [td=1,1,171] Aichun Zhao, Tianfu Zhao, Yuansong Zhang, et al. [/td] [/tr] [tr] [td=1,1,26] 31 [/td] [td=1,1,264] Identification and characterization of piggyBac-like elements in the genome of domesticated silkworm, Bombyx mori[/td] [td=1,1,171] Han-Fu Xu, Qing-You Xia, Chun Liu, et al. [/td] [/tr] [tr] [td=1,1,26] 32 [/td] [td=1,1,264] An optimized sericin-1 expression system for mass-producing recombinant proteins in the middle silk glands of transgenic silkworms[/td] [td=1,1,171] Feng Wang, Hanfu Xu, Lin Yuan, et al. [/td] [/tr] [tr] [td=1,1,26] 33 [/td] [td=1,1,264] Transgenesis approaches for functional analysis of peptidergic cells in the silkworm Bombyx mori[/td] [td=1,1,171] Daubnerova Ivana, Roller Ladislav, Zitnan Dusan, [/td] [/tr] [tr] [td=1,1,26] 34 [/td] [td=1,1,264] Fine organization of Bombyx mori fibroin heavy chain gene[/td] [td=1,1,171] Cong-Zhao Zhou, Fabrice Confalonieri, Nadine Medina1 et al. [/td] [/tr] [tr] [td=1,1,26] 35 [/td] [td=1,1,264] Surprising strength of silkworm silk[/td] [td=1,1,171] Zhengzhong Shao, Fritz Vollrath [/td] [/tr] [tr] [td=1,1,26] 36 [/td] [td=1,1,264] Silkworms transformed with chimeric silkworm/spider silk genes spin composite silk fibers with improved mechanical properties[/td] [td=1,1,171] Florence Teulé, Yun-Gen Miao, Bong-Hee Sohnc et al. [/td] [/tr] [tr] [td=1,1,26] 37 [/td] [td=1,1,264] N-terminal domain of Bombyx mori fibroin mediates assembly of the silk in response to the pH decrease[/td] [td=1,1,171] Yong-Xing He, Nan-Nan Zhang, Wei-Fang Li et al. [/td] [/tr] [tr] [td=1,1,26] 38 [/td] [td=1,1,264] Mapping of major quantitative trait loci for economic traits of silkworm cocoon[/td] [td=1,1,171] Lie Z,Cheng L,Fang-yin D,et al. [/td] [/tr] [tr] [td=1,1,26] 39 [/td] [td=1,1,264] EST-based profiling and comparison of gene expression in the silkworm fat body during metamorphosis[/td] [td=1,1,171] Daojun Cheng, Qingyou Xia, Ping Zhao, et al [/td] [/tr] [tr] [td=1,1,26] 40 [/td] [td=1,1,264] Homeodomain POU and Abd-A proteins regulate the transcription of pupal genes during metamorphosis of the silkworm, Bombyx mori[/td] [td=1,1,171] Huimin Deng, Jialing Zhang, Yong Li, et al [/td] [/tr] [tr] [td=1,1,26] 41 [/td] [td=1,1,264] MET is required for the maximal action of 20-hydroxyecdysone during Bombyx metamorphosis.[/td] [td=1,1,171] Enen Guo, Qianyu He, Shumin Liu, et al [/td] [/tr] [tr] [td=1,1,26] 42 [/td] [td=1,1,264] Precocious Metamorphosis in the Juvenile Hormone–Deficient Mutant of the Silkworm, Bombyx mori[/td] [td=1,1,171] Takaaki Daimon, Toshinori Kozaki, Ryusuke Niwa, et al [/td] [/tr] [tr] [td=1,1,26] 43 [/td] [td=1,1,264] Non-molting glossy/shroud encodes a short-chain dehydrogenase/reductase that functions in the ‘Black Box’ of the ecdysteroid biosynthesis pathway[/td] [td=1,1,171] Ryusuke Niwa, Toshiki Namiki, Katsuhiko Ito, et al [/td] [/tr] [tr] [td=1,1,26] 44 [/td] [td=1,1,264] The Drosophila Estrogen-Related Receptor Directs a Metabolic Switch that Supports Developmental Growth[/td] [td=1,1,171] Jason M. Tennessen, Keith D. Baker, Geanette Lam, et al [/td] [/tr] [tr] [td=1,1,26] 45 [/td] [td=1,1,264] MicroRNA expression profiling during the life cycle of the silkworm (Bombyx mori)[/td] [td=1,1,171] Shiping Liu, Liang Zhang, Qibin Li, et al. [/td] [/tr] [tr] [td=1,1,26] 46 [/td] [td=1,1,264] Structures, regulatory regions, and inductive expression patterns of antimicrobial peptide genes in the silkworm Bombyx mori[/td] [td=1,1,171] Tingcai Cheng,Ping Zhao,Chun Liu,et al. [/td] [/tr] [tr] [td=1,1,26] 47 [/td] [td=1,1,264] Immunoglobulin superfamily is conserved but evolved rapidly and is active in the silkworm, Bombyx mori[/td] [td=1,1,171] Huang, L,Cheng, T,Xu, P,et al. [/td] [/tr] [tr] [td=1,1,26] 48 [/td] [td=1,1,264] Identification and analysis of Toll-related genes in the domesticated silkworm, Bombyx mori[/td] [td=1,1,171] Ting-Cai Cheng, Yu-Li Zhang, Chun Liu, et al. [/td] [/tr] [tr] [td=1,1,26] 49 [/td] [td=1,1,264] A genome-wide survey for host response of silkworm, Bombyx mori during pathogen Bacillus bombyseptieus infection[/td] [td=1,1,171] Lulin Huang, Tingcai Cheng, Pingzhen Xu, et al. [/td] [/tr] [tr] [td=1,1,26] 50 [/td] [td=1,1,264] Immune proteins and their gene expression in the silkworm, Bombyx mori[/td] [td=1,1,171] Yamakawa M, Tanaka H, [/td] [/tr] [tr] [td=1,1,26] 51 [/td] [td=1,1,264] Identification of the chitin-binding proteins from the larval proteins of silkworm, Bombyx mori[/td] [td=1,1,171] Liang Tang, Jiubo Liang, Zhigao Zhan, et al. [/td] [/tr] [tr] [td=1,1,26] 52 [/td] [td=1,1,264] A genomic clone for a chitinase gene from the silkworm, Bombyx mori: structural organization identifies functional motifs[/td] [td=1,1,171] Abdel-Banat, B M Koga, D [/td] [/tr] [tr] [td=1,1,26] 53 [/td] [td=1,1,264] Genome-wide identification and immune response analysis of serine protease inhibitor genes in the silkworm, Bombyx mori[/td] [td=1,1,171] Ping Zhao, Zhaoming Dong, Jun Duan, et al. [/td] [/tr] [tr] [td=1,1,26] 54 [/td] [td=1,1,264] Genome-wide identification and expression analysis of serine proteases and homologs in the silkworm Bombyx mori[/td] [td=1,1,171] Ping Zhao,Gen-Hong Wang,Zhao-Ming Dong,et al. [/td] [/tr] [tr] [td=1,1,26] 55 [/td] [td=1,1,264] A transgenic animal with antiviral properties that might inhibit multiple stages of infection. Antiviral Research[/td] [td=1,1,171] Jiang, L., Zhao, P., Cheng, T.C., et al. [/td] [/tr] [tr] [td=1,1,26] 56 [/td] [td=1,1,264] Engineering Silkworms for Resistance to Baculovirus through Multigene RNA Interference[/td] [td=1,1,171] Subbaiah EV, R.C., Kanginakudru S, et al. [/td] [/tr] [tr] [td=1,1,26] 57 [/td] [td=1,1,264] Resistance to Bombyx mori nucleopolyhedrovirus via overexpression of an endogenous antiviral gene in transgenic silkworms[/td] [td=1,1,171] Liang Jiang, Genhong Wang, Tingcai Cheng, et al. [/td] [/tr] [tr] [td=1,1,26] 58 [/td] [td=1,1,264] Resistance to BmNPV via overexpression of an exogenous gene controlled by an inducible promoter and enhancer in transgenic silkworm, Bombyx mori[/td] [td=1,1,171] Liang Jiang, Tingcai Cheng, Ping Zhao, et al. [/td] [/tr] [tr] [td=1,1,26] 59 [/td] [td=1,1,264] Engineering Silkworms for Resistance to Baculovirus through Multigene RNA Interference[/td] [td=1,1,171] Subbaiah EV, R.C., Kanginakudru S, et al. [/td] [/tr] [tr] [td=1,1,26] 60 [/td] [td=1,1,264] Sex determination: insights from the silkworm[/td] [td=1,1,171] MASATAKA G. SUZUKI [/td] [/tr] [tr] [td=1,1,26] 61 [/td] [td=1,1,264] Sex determination in insects: a binary decision based on[/td] [td=1,1,171] Helen K Salz [/td] [/tr] [tr] [td=1,1,26] 62 [/td] [td=1,1,264] The Gene csd Is the Primary Signal for Sexual Development in the Honeybee and Encodes an SR-Type Protein[/td] [td=1,1,171] Martin Beye, Martin Hasselmann, M. Kim Fondrk, Robert E. Page, Jr and Stig W. Omholt [/td] [/tr] [tr] [td=1,1,26] 63 [/td] [td=1,1,264] Doublesex Surprises[/td] [td=1,1,171] Stephane Vincent, Lizabeth A. Perkin, Norbert Perrimon [/td] [/tr] [tr] [td=1,1,26] 64 [/td] [td=1,1,264] Drosophila Sex lethal Gene Initiates Female Development in Germline Progenitors[/td] [td=1,1,171] Kazuya Hashiyama, Yoshiki Hayashi, Satoru Kobayashi [/td] [/tr] [tr] [td=1,1,26] 65 [/td] [td=1,1,264] Somatic control of germline sexual development is[/td] [td=1,1,171] Matthew Wawersik, Allison Milutinovich, Abbie L. Van Doren et al. [/td] [/tr] [tr] [td=1,1,26] 66 [/td] [td=1,1,264] Novel female-specific trans-spliced and alternative splice forms of dsx in the silkworm Bombyx mori[/td] [td=1,1,171] Jianping Duan,Hanfu Xu,Feng Wang,et al. [/td] [/tr] [tr] [td=1,1,26] 67 [/td] [td=1,1,264] Sex determination in the silkworm, Bombyx mori: a female determinant on the W chromosome and the sex-determining gene cascade[/td] [td=1,1,171] Fujii Tsuguru, Shimada Toru, [/td] [/tr] [tr] [td=1,1,26] 68 [/td] [td=1,1,264] Nested retrotransposons on the W chromosome of the wild silkworm Bombyx mandarina[/td] [td=1,1,171] Abe H, Sugasaki T, Terada T, et al. [/td] [/tr] [tr] [td=1,1,26] 69 [/td] [td=1,1,264] Retrotransposable elements on the W chromosome of the silkworm, Bombyx mori[/td] [td=1,1,171] Abe H, Mita K, Yasukochi Y, et al. [/td] [/tr] [tr] [td=1,1,26] 70 [/td] [td=1,1,264] Novel non-autonomous transposable elements on W chromosome of the silkworm, Bombyx mori[/td] [td=1,1,171] Abe Hiroaki, Fujii Tsuguru, Shimada Toru, et al. [/td] [/tr] [tr] [td=1,1,26] 71 [/td] [td=1,1,264] N-Terminal domain of Bombyx mori fibroin mediates the assembly of silk in response to pH decrease[/td] [td=1,1,171] He, YX, Zhang, NN, Li, WF, et al. [/td] [/tr] [tr] [td=1,1,26] 72 [/td] [td=1,1,264] Structure-guided activity restoration of the silkworm glutathione transferase Omega GSTO3-3[/td] [td=1,1,171] Chen, BY, Ma, XX, Guo, PC, et al. [/td] [/tr] [tr] [td=1,1,26] 73 [/td] [td=1,1,264] Crystal structure of the 30 K protein from the silkworm Bombyx mori reveals a new member of the beta-trefoil superfamily[/td] [td=1,1,171] Yang, JP, Ma, XX, He, YX, et al. [/td] [/tr] [tr] [td=1,1,26] 74 [/td] [td=1,1,264] Solution structure of the silkworm betaGRP/GNBP3 N-terminal domain reveals the mechanism for beta-1,3-glucan-specific recognition[/td] [td=1,1,171] akahasi, K, Ochiai, M, Horiuchi, M, et al. [/td] [/tr] [tr] [td=1,1,26] 75 [/td] [td=1,1,264] NMR structure reveals intramolecular regulation mechanism for pheromone binding and release[/td] [td=1,1,171] Horst, R, Damberger, F, Luginbuhl, P, et al. [/td] [/tr] [tr] [td=1,1,26] 76 [/td] [td=1,1,264] Proteome analysis of silk gland proteins from the silkworm, Bombyx mori[/td] [td=1,1,171] Pingbo Zhang, Yoichi Aso, Kohji Yamamoto, et al. [/td] [/tr] [tr] [td=1,1,26] 77 [/td] [td=1,1,264] Studies on middle and posterior silk glands of silkworm (Bombyx mori) using two-dimensional electrophoresis and mass spectrometry[/td] [td=1,1,171] Yong Hou, Qingyou Xia,Ping Zhao,et al. [/td] [/tr] [tr] [td=1,1,26] 78 [/td] [td=1,1,264] Shotgun analysis on the peritrophic membrane of the silkworm Bombyx mori[/td] [td=1,1,171] Xiaowu Zhong, Liping Zhang, Yong Zou, et al. [/td] [/tr] [tr] [td=1,1,26] 79 [/td] [td=1,1,264] Genome-Wide Analysis of Protein-DNA Interactions[/td] [td=1,1,171] Tae Hoon Kim and Bing Ren [/td] [/tr] [tr] [td=1,1,26] 80 [/td] [td=1,1,264] A Protein Interaction Map of Drosophila melanogaster[/td] [td=1,1,171] L. Giot,J. S. Bader, C. Brouwer, et al. [/td] [/tr] [tr] [td=1,1,26] 81 [/td] [td=1,1,264] The odorant binding protein gene family from the genome of silkworm, Bombyx mori[/td] [td=1,1,171] Da-Ping Gong, Hui-Jie Zhang, Ping Zhao, et al. [/td] [/tr] [tr] [td=1,1,26] 82 [/td] [td=1,1,264] Identification and expression pattern of the chemosensory protein gene family in the silkworm, Bombyx mori[/td] [td=1,1,171] Da-Ping Gong, Hui-Jie Zhang, Ping Zhao, et al. [/td] [/tr] [tr] [td=1,1,26] 83 [/td] [td=1,1,264] The Role of Behavior in the Evolution of Spiders, Silks, and Webs[/td] [td=1,1,171] Fritz Vollrath and Paul Selden [/td] [/tr] [tr] [td=1,1,26] 84 [/td] [td=1,1,264] The unique evolution of neuropeptide genes in the silkworm Bombyx mori[/td] [td=1,1,171] Roller Ladislav, Yamanaka Naoki, Watanabe Ken,et al. [/td] [/tr] [tr] [td=1,1,26] 85 [/td] [td=1,1,264] Species-specific expansion of C2H2 zinc-finger genes and their expression profiles in silkworm, Bombyx mori[/td] [td=1,1,171] Jun Duan, Qingyou Xia, Daojun Cheng,et al. 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[/td] [/tr] [tr] [td=1,1,26] 3 [/td] [td=1,1,264]家蚕遗传育种学 [/td] [td=1,1,171] 向仲怀[/td] [/tr] [tr] [td=1,1,26] 4 [/td] [td=1,1,264]蚕体解剖生理学 [/td] [td=1,1,171] [font=宋体 |
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