小家鼠重複基因Sp100-rs之研究

Fang-Chin Hsu; 許芳瑾

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DC 欄位	值	語言
dc.contributor.author	Fang-Chin Hsu	en
dc.contributor.author	許芳瑾	zh_TW
dc.date.accessioned	2021-07-01T08:13:04Z	-
dc.date.available	2021-07-01T08:13:04Z	-
dc.date.issued	2003
dc.identifier.citation	黃筱薇．2001．台灣小家鼠第十七號染色體之遺傳變異．國立臺灣大學動物學研究所博士論文 Agulnik, S., A. I. Agulnik, and A. O. Ruvinsky, 1990a Meiotic drive in female mice heterozygous for the HSR inserts on chromosome 1. Genet. Res. 55: 97-100. Agulnik, S., P. M. Borodin, I. P. Gorlov, T. Ladygina, and S. D. Pak, 1990b The origin of a double insertion of homogeneously staining regions in the house mouse (Mus musculus musculus). Heredity 65: 265-267. Agulnik, S., S. Adolph, H. Winking, and W. Traut, 1993a Zoogeography of the chromosome 1 HSR in natural populations of the house mouse (Mus musculus). Hereditas 119: 39-46. Agulnik, S., C. Plass, W. Traut, and H. Winking, 1993b Evolution of a long-range repeat family in chromosome 1 of the genus Mus. Mamm. Genome 4: 704-710. Agulnik, S., I. D. Sabantsev, G. V. Orlova, and A. O. Ruvinsky, 1993c Meiotic drive on aberrant chromosome 1 in the mouse is determined by a linked distorter. Genet. Res. 61: 91-96. Agulnik, S., I. D. Sabantsev, and A. O. Ruvinsky, 1993d Effect of sperm genotype on chromatid segregation in female mice heterozygous for aberrant chromosome 1. Genet. Res. 61: 97-100. Alitalo, K., M. Schwab, C. C. Lin, H. E. Varmus, and J. M. Bishop, 1983 Homogeneously staining chromosomal regions contain amplified copies of an abundantly expressed cellular oncogene (c-myc) in malignant neuroendocrine cells from a human colon carcinoma. Proc. Natl. Acad. Sci. USA 80: 1707-1711. Biedler, J. L. and B. A. Spengler, 1976 Metaphase chromosome anomaly: association with drug resistance and cell-specific products. Science 191: 185-187. Boldyreff, B., H. Winking, A. Weith, and W. Traut, 1988 Evidence for in situ amplification of a germ line homogeneously staining region in the mouse. Cytogenet. Cell Genet. 47: 84-85. Bonhomme, F., 1986 Evolutionary relationships in the genus Mus. Microbiol. Immunol. 127: 19-34. Boursot, P., J. C. Auffray, J. Britton-Davidian, and F. Bonhomme, 1993 The evolution of house mice. Annu. Rev. Ecol. Syst. 24: 119-152. Cowell, J. K., 1982 Double minutes and homogeneously staining regions: gene amplification in mammalian cells. Annu. Rev. Genet. 16: 21-59. Eckert, W. A., C. Plass, A. Weith, W. Traut, and H. Winking, 1991 Transcripts from amplified sequences of an inherited homogeneously staining region in chromosome 1 of the house mouse (Mus musculus). Mol. Cell. Biol. 11: 2229-2235. Gileva, E. A., 1996 The HSR chromosome 1 in the house mouse, Mus musculus, from regions of the Urals polluted by mutagens. Hereditas 125: 61-67. Gr?tzinger, T., K. Jensen, H. H. Guldner, T. Sternsdorf, C. Szostecki et al., 1996 A highly amplified mouse gene is homologous to the human interferon-responsive Sp100 gene encoding an autoantigen associated with nuclear dots. Mol. Cell. Biol. 16: 1150-1156. Guldner, H. H., C. Szostecki, T. Grotzinger, and H. Will, 1992 IFN enhance expression of Sp100, an autoantigen in primary biliary cirrhosis. J. Immunol. 149: 4067-4073. Kovacs, G., 1979 Homogeneously staining regions on marker chromosomes in malignancy. Int. J. Cancer 23: 299-301. Kunze, B., D. Weichenhan, P. Virks, W. Traut, and H. Winking, 1996 Copy numbers of a clustered long-range repeat determine C-band staining. Cytogenet. Cell Genet. 73: 86-91. Kunze, B., T. Hellwig-Burgel, D. Weichenhan, and W. Traut, 2000 Transcription and proper splicing of a mammalian gene in yeast. Gene 246: 93-102. Moriwaki, K., H. Miyashita, H. Suzuki, Y. Kurihara, and H. Yonekawa, 1986 Genetic features of major geographical isolates of Mus musculus. Curr. Top. Microbiol. Immunol. 127: 55-61. Nunberg, J. H., R. J. Kaufman, R. T. Schimke, G. Urlaub, and L. A. Chasin, 1978 Amplified dihydrofolate reductase genes are localized to a homogeneously staining region of a single chromosome in a methotrexate-resistant Chinese hamster ovary cell line. Proc. Natl. Acad. Sci. USA 75: 5553-5556. Plass, C., T. Hellwig, W. Traut, and H. Winking, 1992 Evolution of a B2 tagged sequence from a long-range repeat family in the genus Mus. Mamm. Genome 3: 197-201. Plass, C., D. Weichenhan, B. Kunze, T. Hellwig, C. Schneider et al., 1995 A member of the mouse LRR transcript family with homology to the human Sp100 gene. Hereditas 122: 245-256. Purmann, L., C. Plass, M. Gruneberg, H. Winking, and W. Traut, 1992 A long-range repeat cluster in chromosome 1 of the house mouse, Mus musculus, and its relation to a germline homogeneously staining region. Genomics 12: 80-88. Sabantsev, I., O. Spitsin, S. Agulnik, and A. Ruvinsky, 1993 Population dynamics of aberrant chromosome 1 in mice. Heredity 70: 481-489. Schwab, M., K. Alitalo, H. E. Varmus, J. M. Bishop, and D. George, 1983 A cellular oncogene (c-Ki-ras) is amplified, overexpressed, and located within karyotypic abnormalities in mouse adrenocortical tumour cells. Nature 303: 497-501. Szostecki, C., H. Krippner, E. Penner, and F. A. Bautz, 1987 Autoimmune sera recognize a 100 kD nuclear protein antigen (sp-100). Clin. Exp. Immunol. 68: 108-116. Traut, W. and H. Winking, 1983 Characterization of a new type of heterochromatin in the mouse. Hereditas 98: 157. Traut, W., H. Winking, and S. Adolph, 1984 An extra segment in chromosome 1 of wild Mus musculus: a C-band positive homogeneously staining region. Cytogenet. Cell Genet. 38: 290-297. Traut, W., M. F. Seldin, and H. Winking, 1992 Genetic mapping and assignment of a long-range repeat cluster to band D of chromosome 1 in Mus musculus and M. spretus. Cytogenet. Cell Genet. 60: 128-130. Traut, W., H. Winking, C. Plass, D. Weichenhan, B. Kunze et al., 1994 An inherited homogeneously staining region derived from a long-range repeat family in the house mouse. pp.31-41 in Chromosomal Alteration: Origin and Significance, edited by G. Obe and A. T. Natarajan. Springer-Verlag, New York. Traut, W., D. Weichenhan, U. Eickhoff, and H. Winking, 1999 Origin of the chromosome 1 HSR of the house mouse detected by CGH. Chromosome Res. 7: 649-653. Traut, W., I. M. Rahn, H. Winking, B. Kunze, and D. Weichehan, 2001 Evolution of a 6-200 Mb long-range repeat cluster in the genus Mus. Chromosoma 110: 247-252. Weichenhan, D., B. Kunze, C. Plass, T. Hellwig, H. Winking et al., 1995 A transcript family from a long-range repeat cluster of the house mouse. Genome 38: 239-245. Weichenhan, D., W. Traut, B. Kunze, and H. Winking, 1996 Distortion of Mendelian recovery ratio for a mouse HSR is caused by maternal and zygotic effects. Genet. Res. 68: 125-129. Weichenhan, D., B. Kunze, S. Zacker, W. Traut, and H. Winking, 1997 Structure and expression of the murine Sp100 nuclear dot gene. Genomics 43: 298-306. Weichenhan, D., B. Kunze, W. Traut, and H. Winking, 1998a Evolution by fusion and amplification: the murine Sp1OO-rs gene cluster. Cytogenet. Cell Genet. 80: 226-231. Weichenhan, D., B. Kunze, W. Traut, and H. Winking, 1998b Restoration of the Mendelian transmission ratio by a deletion in the mouse chromosome 1 HSR. Genet. Res. 71: 119-125. Weichenhan, D., B. Kunze, H. Winking, M. van Geel, K. Osoegawa et al., 2001 Source and component genes of a 6-200 Mb gene cluster in the house mouse. Mamm. Genome 12: 590-594. Weith, A., H. Winking, B. Brackmann, B. Boldyreff, and W. Traut, 1987 Microclones from a mouse germ line HSR detect amplification and complex rearrangements of DNA sequences. EMBO J. 6: 1295-1300. Winking, H., H. Bostelmann, and K. Fredga, 1991a Incidence of double-band HSRs in chromosome 1 of the house mouse, Mus musculus musculus, from Oland (Sweden): a population study. Hereditas 114: 111-116. Winking, H., A. Weith, B. Boldyreff, K. Moriwaki, K. Fredga et al., 1991b Polymorphic HSRs in chromosome 1 of the two semispecies Mus musculus musculus and M. m. domesticus have a common origin in an ancestral population. Chromosoma 100: 147-151. Xie, K., E. J. Lambie, and M. Snyder, 1993 Nuclear dot antigens may specify transcriptional domains in the nucleus. Mol. Cell. Biol. 13: 6170-6179. 楊尚達．1998．台灣地區小家鼠粒線體控制區序列變異及族群遺傳之研究．國立臺灣大學動物學研究所碩士論文 Agulnik, S. I., A. I. Agulnik, and A. O. Ruvinsky, 1990 Meiotic drive in female mice heterozygous for the HSR inserts on chromosome 1. Genet. Res. 55: 97-100. Agulnik, S., C. Plass, W. Traut, and H. Winking, 1993a Evolution of a long-range repeat family in chromosome 1 of the genus Mus. Mamm. Genome 4: 704-710. Agulnik, S. I., I. D. Sabantsev, and A. O. Ruvinsky, 1993b Effect of sperm genotype on chromatid segregation in female mice heterozygous for aberrant chromosome 1. Genet. Res. 61: 97-100. Bains, W. and K. Temple-smith, 1989 Similarity and divergence among rodent repetitive DNA sequences. J. Mol. Evol. 28: 191-199. Banville, D. and Y. Boie, 1989 Retroviral long terminal repeat is the promoter of the gene encoding the tumor-associated calcium-binding protein oncomodulin in the rat. J. Mol. Biol. 207: 481-490. Barsh, G. S. P., H. Seeburg, and R. E. Gelinas, 1983 The human growth hormone gene family: structure and evolution of the chromosome locus. Nucleic Acids Res. 11: 3939-3958. Bird, A. P., 1980 DNA methylation and the frequency of CpG in animal DNA. Nucleic Acids Res. 8: 1499-1504. Bridges, C. B., 1936 The bar Gene: a duplication. Science 83: 210-211. Brosius, J., 1999 RNAs from all categories generate retrosequences that may be exapted as novel genes or regulatory elements. Gene 238: 115-134. Cabot, E. L., B. Angeletti, K. Usdin, and A. V. Furano, 1997 Rapid evolution of a young L1 (LINE-1) clade in recently speciated Rattus taxa. J. Mol. Evol. 45: 412-423. Chang-Yeh, A., D. E. Mold, and R. C. Huang, 1991 Identification of a novel murine IAP-promoted placenta-expressed gene. Nucleic Acids Res. 19: 3667-3672. Cortinas, M. N. and E. P. Lessa, 2001 Molecular evolution of Aldolase A pseudogenes in mice: multiple origins, subsequent duplications, and heterogeneity of evolutionary rates. Mol. Biol. Evol. 18: 1643-1653. Fitch, W. M., 1971 Toward defining the course of evolution: Minimum change for a specific tree topology. Syst. Zool. 20: 406-416. Felsenstein, J., 1981 Evilutionary trees from DNA sequences: A maximum likelihood approach. J. Mol. Evol. 17: 368-376. Ferris, S. D., R. D. Sage, E. M. Prager, U. Ritte and A. C. Wilson, 1983 Mitochondrial DNA evolution in mice. Genetics 105: 681-721. Fitch, D. H., W. J. Bailey, D. A. Tagle, M. Goodman, L. Sieu et al., 1991 Duplication of the gamma-globin gene mediated by L1 long interspersed repetitive elements in an early ancestor of simian primates. Proc. Natl. Acad. Sci. USA 88: 7396-7400. Force, A., M. P. F. B. Lynch, A. Amores, Y. L. Yan and J. Postlethwait, 1999 Preservation of duplicate genes by complementary, degenerative mutations. Genetics 151: 1531-1545. Forey, P. and P. Janvier, 1994 Evolution of the early vertebrates. Am. Sci. 82: 554-565. Glusman, G, L. Rowen, I. Lee, C. Boysen, J. C. Roach et al., 2001 Comparative genomics of the human and mouse T cell receptor loci. Immunity 15: 337-349. Henikoff, S., E. A. Greene, S. Pietrokovski, P. Bork, T. K. Attwood et al., 1997 Gene families: the taxonomy of protein paralogs and chimeras. Science 278: 609-614. Jubier-Maurin, V., G. Cuny, A. M. Laurent, L. Paquereau and G. Roizea, 1992 A new 5' sequence associated with mouse L1 elements is representative of a major class of L1 termini. Mol. Biol. Evol. 9: 41-55. Jurka, J., P. Klonowski, V. Dagman, and P. Pelton, 1996 CENSOR-a program for identification and elimination of repetitive elements from DNA sequences. Comput. Chem. 20: 119-121. Jurka, J., 2000 Repbase update: a database and an electronic journal of repetitive elements. Trends Genet. 16: 418-420. Kimura, M., 1980 A simple method for estimating evolutionary rates of base substitutions through comparative studies of nucleotide sequences. J. Mol. Evol. 16: 111-120. Krayev, A. S., T. V. Markusheva, D. A. Kramerov, A. R. Ryskov, K. G Skryabin et al., 1982 Ubiquitous transposon-like repeats B1 and B2 of the mouse genome: B2 sequencing. Nucleic Acids Res. 10: 7461-7475. Kunze, B., D. Weichenhan, P. Virks, W. Traut, and H. Winking, 1996 Copy numbers of a clustered long-range repeat determine C-band staining. Cytogenet. Cell Genet. 73: 86-91. Li, W. H., 1980 Rate of gene silencing at duplicate loci: a theoretical study and interpretation of data from tetraploid fishes. Genetics 95: 237-258. Long, M. and C. H. Langley, 1993 Naturnal selection and the origin of jingwei, a chimeric processed functional gene in Drosophila. Science 260: 91-95. Long, M. and K. Thornton, 2001 Gene duplication and evolution. Science 293: 1551. Lynch, M. and J. S. Conery, 2000 The evolutionary fate and consequences of duplicate genes. Science 290: 1151-1155. Lynch, M., 2002 Gene duplication and evolution. Science 297: 945-947. Maeda, N. and O. Smithies, 1986 The evolution of multigene families: human haptoglobin genes. Annu. Rev. Genet. 20: 81-108. Mager, D. L., 1989 Polyadenylation function and sequence variability of the long terminal repeats of the human endogenous retrovirus-like family RTVL-H. Virology 173: 591-599. Mager, D. L., D. G Hunter, M. Schertzer and J. D. Freeman, 1999 Endogenous retroviruses provide the primary polyadenylation signal for two new human genes (HHLA2 and HHLA3). Genomics 59: 255-263. Matsumine, H., M. A. Herbst, S. H. Ou, J. D. Wilson and M. J. McPhaul, 1991 Aromatase mRNA in the extragonadal tissues of chickens with the henny-feathering trait is derived from a distinctive promoter structure that contains a segment of a retroviral long terminal repeat. Functional organization of the Sebright, Leghorn, and Campine aromatase genes. J. Biol. Chem. 266: 19900-19907. Miller, W. J., J. F. McDonald, and W. Pinsker, 1997 Molecular domestication of mobile elements. Genetica 100: 261-270. Muller, H. J., 1935 The origination of chromatin deficiencies as minute deletions subject to insertion elsewhere. Genetics 17: 237-252. Ohno, S., 1970 Evolution by Gene Duplication. Springer-Verlag, Birlin. Plass, C., T. Hellwig, W. Traut, and H. Winking, 1992 Evolution of a B2 tagged sequence from a long-range repeat family in the genus Mus. Mamm. Genome 3: 197-201. Plass, C., D. Weichenhan, B. Kunze, T. Hellwig, C. Schneider et al., 1995 A member of the mouse LRR transcript family with homology to the human Sp100 gene. Hereditas 122: 245-256. Prince, V. E. and F. B. Pickett, 2002 Splitting pairs: the diverging fates of duplicated genes. Nat. Rev. Genet. 3: 827-837. Proutski, V. and E. Holmes, 1998 SWAN: sliding window analysis of nucleotide sequence variability. Bioinformatics 14: 467-468. Purmann, L., C. Plass, M. Gruneberg, H. Winking, and W. Traut, 1992 A long-range repeat cluster in chromosome 1 of the house mouse, Mus musculus, and its relation to a germline homogeneously staining region. Genomics 12: 80-88. Quentin, Y., 1989 Successive waves of fixation of B1 variants in rodent lineage history. J. Mol. Evol. 28: 299-305. Rubin, G M., M. D. Yandell, J. R. Wortman, G L. Gabor Miklos, C. R. Nelson et al., 2000 Comparative genomics of the eukaryotes. Science 287: 2204-2215. Sabantsev, I., O. Spitsin, S. Agulnik, and A. Ruvinsky, 1993 Population dynamics of aberrant chromosome 1 in mice. Heredity 70: 481-489. Saitou, N. and M. Nei, 1987 The neighbor-joining method: A new method for reconstructing phylogenetics trees. Mol. Biol. Evol. 4: 406-425. Shapiro, M. B. and P. Senapathy, 1987 RNA splice junctions of different classes of eukaryotes: sequence statistics and functional implications in gene expression. Nucleic Acids Res. 15: 7155-7174. Shehee, W. R., S.F. Chao, D. D. Loeb, M. B. Comer, C. A. I. Hutchison et al., 1987 Determination of a functional ancestral sequence and definition of the 5' end of A-type mouse L1 elements. J. Mol. Biol. 196: 757-767. Shen, S. H., J. L. Slightom, and O. Smithies, 1981 A history of the human fetal globin gene duplication. Cell 26: 191-203. Shore, S. K., L. T. Bacheler, J. K. de Riel, L. R. Barrows and M. Lynch, 1986 Cloning and characterization of a rat-specific repetitive DNA sequence. Gene 45: 87-93. Smit, A. F., 1993 Identification of a new, abundant superfamily of mammalian LTR-transposons. Nucleic Acids Res. 21: 1863-1872. Smit, A. F., G. Toth, A. D. Riggs, and J. Jurka, 1995 Ancestral, mammalian-wide subfamilies of LINE-1 repetitive sequences. J. Mol. Biol. 246: 401-417. Soares, M. B., E. Schon, S. K. Henderson, R. Karathanasis, R. Cate et al., 1985 RNA-mediated gene duplication: the rat preproinsulin I gene is a functional retroposon. Mol. Cell. Biol. 5: 2090-2103. Sverdlov, E. D., 1998 Perpetually mobile footprints of ancient infections in human genome. FEBS Lett. 428: 1-6. Swofford, D. L., 1999 PAUP: phylogenetic analysis using parsimony (and other method), version 4.0. Sinauer Associates, Sunderland, Massachusetts. Tautz, D., 1989 Hypervariability of simple sequences as a general source for polymorphic DNA markers. Nucleic Acids Res. 17: 6463-6471. Traut, W., I. M. Rahn, H. Winking, B. Kunze, and D. Weichehan, 2001 Evolution of a 6-200 Mb long-range repeat cluster in the genus Mus. Chromosoma 110: 247-252. Trowsdale, J., 1993 Genomic structure and function in the MHC. Trends Genet. 9: 117-122. Watterson, G. A., 1983 On the time for gene silencing at duplicate loci. Genetics 105: 745-766. Weichenhan, D., B. Kunze, W. Traut, and H. Winking, 1998 Evolution by fusion and amplification: the murine Sp100-rs gene cluster. Cytogenet. Cell Genet. 80: 226-231. Weichenhan, D., B. Kunze, H. Winking, M. van Geel, K. Osoegawa et al., 2001 Source and component genes of a 6-200 Mb gene cluster in the house mouse. Mamm. Genome 12: 590-594. Weichenhan, D., W. Traut, B. Kunze, and H. Winking, 1996 Distortion of Mendelian recovery ratio for a mouse HSR is caused by maternal and zygotic effects. Genet. Res. 68: 125-129. Wilhelm, B. T., L. Gagnier, and D. L. Mager, 2002 Sequence analysis of the Ly49 cluster in C57BL/6 mice: a rapidly evolving multigene family in the immune system. Genomics 80: 646-661. Mackay, I. M., K. E. Arden, and A. Nitsche, 2002 Real-time PCR in virology. Nucleic Acids Res. 30: 1292-1305. Morrison, T. M., J. J. Weis, and C. T. Wittwer, 1998 Quantification of low-copy transcripts by continuous SYBR green I monitoring during amplification. BioTechniques 24: 954-962. Ririe, K. M., R. P. Rasmussen, and C. T. Wittwer, 1997 Product differentiation by analysis of DNA melting curves during the polymerase chain reaction. Anal. Biochem. 245: 154-160. Soares, M. B., E. Schon, S. K. Henderson, R. Karathanasis, R. Cate et al., 1985 RNA-mediated gene duplication: the rat preproinsulin I gene is a functional retroposon. Mol. Cell. Biol. 5: 2090-2103.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75411	-
dc.description.abstract	小家鼠的Sp100-rs基因，位在一號染色體上，約在1-2百萬年形成。其來自基因組中兩個部分的融合，長度約為100kb，含6個exons，具高度重複的特性。在Mus屬中含有小家鼠的這個支系中的各鼠種中形成一個重複次數差異甚多的gene cluster，為一個研究基因重複好的材料。過去針對Sp100-rs基因的研究僅侷限於M. m. musculus及M. m. domesticus兩個亞種，對台灣的小家鼠（M. m. castaneus）中Sp100-rs基因則無任何相關研究。本研究針對來自宜蘭頭城的小家鼠Sp100-rs cluster中不同copy進行選殖，選殖片段包括exon6及兩側的的序列近4kb。在38個copies中成功得到其中的12個，親源關係分析的結果，我們推測此樣品的Sp100-rs cluster的演化過程，可能在短時間內先演化出主要的六份，形成六個獨立的支系，各支系再各自發師重複事件，演化出其他份，符合階梯式的演化。選殖的的片段中，具有8個repetitive element，佔序列長度的40％。其中有五個為還沒形成Sp100基因前即存在，而clone7中獨有的L1_MM應為這個copy形成後才插入。此外，exon6可能來自一個repetitive element： RMER5。以Real-time PCR分析台灣各地區小家鼠Sp100-rs基因重複次數，其平均重複次數為183次，明顯較過去對泰國的小家鼠估計的94次要高。分佈以在150-200次的個體為最多，有近34％個體重複次數大於200次。而Sp100-rs基因的重複次數則和地理分佈無相關。根據過去研究及對台灣的小家鼠中Sp100-rs基因重複次數的估算結果顯示：其應是在短時間內快速演化所形成，重複速率較現有文獻中估計的快了許多，是個極有趣的例子。	zh_TW
dc.description.provenance	Made available in DSpace on 2021-07-01T08:13:04Z (GMT). No. of bitstreams: 0 Previous issue date: 2003	en
dc.description.tableofcontents	致謝……………………………………………………I 摘要……………………………………………………II 目錄……………………………………………………III 第一章 Sp100-rs基因簡介 1．Sp100-rs基因的發現……………………………………………………1 2．HSR的分子研究……………………………………………………4 3．Sp100-rs基因的組成……………………………………………………7 4．Sp100-rs cluster的形成……………………………………………………9 5．Fitness和Fertility……………………………………………………12 6．參考文獻……………………………………………………14 7．表……………………………………………………20 8．圖……………………………………………………21 第二章小家鼠重複基因Sp100-rs之研究 1．前言……………………………………………………26 2．材料方法……………………………………………………29 3．結果……………………………………………………41 4．討論……………………………………………………47 5．參考文獻……………………………………………………55 6．表……………………………………………………62 7．圖……………………………………………………66 8．附錄……………………………………………………76
dc.language.iso	zh-TW
dc.title	小家鼠重複基因Sp100-rs之研究	zh_TW
dc.title	Analysis of Duplication Gene Sp100-rs in House Mouse (Mus musculus castaneus)	en
dc.date.schoolyear	91-2
dc.description.degree	碩士
dc.relation.page	82
dc.rights.note	未授權
dc.contributor.author-dept	生命科學院	zh_TW
dc.contributor.author-dept	動物學研究所	zh_TW
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