染色質之比較研究

李德章

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DC 欄位	值	語言
dc.contributor.author	李德章	zh_TW
dc.date.accessioned	2021-07-01T08:15:56Z	-
dc.date.available	2021-07-01T08:15:56Z	-
dc.date.issued	1976
dc.identifier.citation	1. Allfrey, V. G. 1974. Iaolation of nuclei from the thymus. Methods in Enzymol. 31:246. 2. Allfrey, V. G., V. C. Littau & A. E. Mirsky. 1964. On the role of histones in regulating ribonucleic acid synthesis in the cell nucleus. Proc. Nat. Acad. Sci. USA 49:414. 3. Anderson, K. M., H. Chance & N. Kadohama. 1975. Separation of transcript-tionally active from less active rat ventral prostate chromatin. Exp. Cell Hes. 94:176. 4. Ansein, A. T., L. S. Hnilica, T. C. Spesberg & S. L. Kehm. 1971. Structure studies on chromatin and nucloproteins. Thermal denaturation profiles recorded in the presence of ura. Biochemistry 10:4793. 5. Arrighi, E. E., T. C. Hsu, P. Saunders □ G. F. Saunders. 1971. Localization of repetitive DNA in chromosomes of Microtus agrestis by means of in situ hybridization. Chiiomosoma 32:24. 6. Baldwin, J. P., P. G. Boseley, E. M. Bradbury & K. Ibel. 1975. The subunit structure of eukaryotic chromosome. Nature 253:245. 7. Bekhor, I.G. M. Kung & J. Bonner. 1969. Sequence specific interaction of DNA and chrmosomal protein. J. Mol, Biol. 39:351. 8. Berkowitz, E. M. & P. Doty. 1975. Chemical and physical properties of fractionated chromatin. Proc. Nat. Acad. Sci. USA 72:3328. 9. Bernardl, G. 1969. Chromatography of nucleic acids on hydroxyapatite. I I. Chromatography of denature DNA. Biochim. Biophys. Acta 174:435. 10. Bernardi, G. 1971. Chromatography of nucleic acids on hydroxyapatite column. Methods in Enzymol. 22 (D):95. 11. Bhorjee, J. S. & T. Pederson. 1973. Chromatin: Its isolation from cultured mammalian cells with particular reference to contamination by nuclear ribonucleoprotein particles. Biochemistry 12:2766. 12. Billing, R. J. & J. Boriner. 1972, The structure of chromatin as revealed by deoxyribonuclease digestion studies. Biochim. Biophys. Acta 281:453. 13. Bonner, J., G. R. Chalkley, M. Daharus, 0. Fambrogh, F. Fujimu□, R. C. Huang, J. Huberman, R. Jensen, K. Marushige, 11. Ohlenbrusach, B. Oliver & J. Widhoim. 1968. Isolation and characterization of chromosomal nucleoproteins. Methods in Enzymol. 12 (B):3. 14. Bradbury, E. M., H. V. MoLgaare, R. M. Stephens, E. W. Johns & L. A. Bolun. 1972. X-ray studies of nucleoproteins depleted of lysine-rich histone. Eur. J. Biochem. 31:474. 15. Brown, S. W. 1966. Heterochromatin. Science 151:417. 16. Burkholder, G. D. & M. G. Weaver. 197. Differential accessibility of DNA in extended and condensed chromatin to pancreatic DNase I. Exp. Cell Res. 92:518. 17. Bustin, M. & B. D. Stollar. 1972. Imminochemical specificity in lysine-rich histone subfractions. J. Biol. Chrm. 247:5716. 18. Byroet, F. 1966. Metabolic integrity of deoxyribonucleohistones, J. Mol. Biol. 17:311. 19. Chan, C-B. 1975. Reconstltution of cbromatin: Mode of reassociation of chromosomal proteins. Biochemistry 14:900. 20. Chauveau, J., Y. Moule' & C. H. Rou11er. 1956. Isolation of pure and unaltered liver nuclei morphology and biochemical components. Exp. Cell Res. 11:317. 21. Chevalliver, M. R. & G. Bernardi. 1968. Residual transforming activity of denatured Haemophilus Lnfluenzae DNA. J. Mol, Biol. 32:437. 22. Comings, D. E. 1970. Quantitative autoradiography of heterochromatin replication in Microtus agrestis. Chromosoma 29:423. 23. Comings, D. E. 1974. The structure of human chromosome, in The Cell Nucleus (H. Busch, ed.) 1:538. 24. Comings, D. E. & D. C. Harris 1975, Nuclear proteins. I. Electrophoretic comparison of mouse nucleoli, heterochromatin, euchromatin and contractile proteins. Exp. Cell Rae. 76:161. 25. DeLange, R. J., D. M. Fambrough, E. L. Smith & J. Bonner. 1969. Calf and pea histone IV. II. The complete amino acid sequence of calf thymus histones IV, presence of E-N-acetyllysine. J. Biol. Chem. 144:319. 26. DeLange, R. J. & E. L. Smith. 1971. Histones: structure and function, Ann, Rev. Biochem. 40:279. 27. Eckhardt, R. A. & J. G. Gall. 1971. Satellite DNA associated with hetero-chroiatin in Rynchociara. Chromosoina 32:407. 28. Elgin, S. C. a. & J. Bonner. 1972. Partial fractionation and chemical characterization of the major nonhione chromosomal proteins. Biochemistry 11:772. 29. Elgin, S. C. R. & H. Weintraub. 1975. Chromosomal proteins and chromatin atructure. Ann. Rev. Biochem. 44:725. 30. Flamm, W. G. 1972. Highly repetitive sequence of DNA in chromosomes. Internat. Rev. Cytol. 32:1. 31. Frenster, J. H. 1971. Electron microscopic localization of acridine orange binding to DNA within human leukemic bone. Cancer R□s. 31:1128. 32. Frenster, J. H., V. G. Allfrey & A. E. Mirsky. 1963. Repressed and active chromatin isolated from interphase lymphocytes. Proc. Nat. Acad. Sci. USA 50:1026. 33. Gilmour, R. S. & J. Paul. 1969. RNA transcribed from reconstituted nucleoprotein is similar to nature RNA. J. Mol. Biol. 40:137. 34. Gilrnour, R. S. & J. Paul. 1973. Tissue-specific transcription of globin gene in isolated chromatin. Proc. Nat. Aced. Sci. USA 70:3440. 35. Gosden, J. R. & A. R. Mitchell. 1975. Characterisation of DNA from corensed and dispersed human chromatin. Exp. Cell Roe. 92:131. 36. Gotterfeld, J. M., W. T. Garrard, C. Bagi, ft. F. Wilson & J. Bonnor. 1974. Partial purification of the template-active fraction of chromatin: A preliminary report Proc Nat. Acad. Sci. USA 71:2193. 37. Gotterfeld, J. M., ft. F. Murphy & J, Bonner. 1975. Structure of transcriptionally active chromatin, Proc. Nat. Aced. Sci. USA 72:4404. 38. Harwood, R. 1974. Cell separation by gradient centrifugation. Internat. Rev, Cytol. 38:369. 39. Reitz, E. 1928. Das Haterochromatin der Moose I. Jaheb. Weiss. Bat. 69:762. 40. Hemminki, K. 1975. Synthesis of chromatin proteins in resting and stimulated human lymphocyte populations. Exp. Cell Roe. 93:63. 41. Hensen, P. & I. O. Walker. 1971 The structure of nucleohistones: Hydrodynamic behavior at high ionic strength. Eur. J. Biochem. 22:1. 42. Hsu, T. C. 1962. Differential rate in RNA synbhesis between euchromatin and heterochromatin. Exp. Cell Rea, 27:332. 43. Hsu, T. C. 1973. Longitudinal differentiation of chromosomes. Ann. Rev. Qenet. 7:153. 44. Huang, R. C. & J. Bonner. 1962. Histone: A repressor of chromosomal RNA synthesis. Proc. Nat. Aced. Sci. USA 48:1216. 45. Huang, R. C. C. & P. C. Huang. 1969. Effect of protein-bound RNA associated with chick embryo chromatin on template specificity of the chromatin. J. Mol. Biol. 39:365. 46. Humason, G. C. 1967. Animal Tissue Technique (2nd ed.). 47. Itzhaki, R. F. 1971. The arrangment of proteins on the deoxyribonucleic acid in chromatin. Biochem. J. 125:221. 48. Janowski, M., D. S. Nasser & B. J. McCarthy. 1972. Fractionation of mammalian chromatin. Gene. transcription in reproduction tissue. Karolinska Symp. 5:112. 49. Johson, J. D., A. S. Douvas & J. Bonner. 1974. Chromosomal proteins. Internat. Rev. Cytol. 4 (supple.):273. 50. Jones, K. W. 1970. Chromoaomal and nuclear location of mouse satellite DNA in individual cell. Nature 225:912. 51. Kinkade, J. N. 1969. Qualeitative specific differences and quantitative differences in distribution of lysine-rich histories. J. Biol. Chem. 244:3375. 52. Kleinsmith, L. J., J. Heidema & A, Carroll. 1970. Specific binding of rat liver nuclear proteins to DNA. Nature 226:1025. 53. Kornberg, it. D. 1974. Chromatin structure: A repeating unit of histones and DNA. Science 184:868. 54. Kornberg, R. D. & J. D. Thomas. 1974, Chromatin structure: Oligomers of the histones. Science 184:865. 55. Kostraba, N. C., R. A. Montagna & T. Y. Wang. 1974. Study of the loosely bound nonhistone chromatin proteins. J. Biol. Chem. 250:1548. 56. Laemmli, U. K. 1970. Cleavage of structural proteins during the assembly of head of bacteriophage T4. Nature 227:680. 57. Langan, T. A., S. C. Rall & R. D. Cole, 1971. Variation in primary structure at a phosphorylation site in lysine-rich histories. J. Bi□l. Chem. 246:1942. 58. Lowry, O. H., N. J. Rosebrough, A. L. Farr & R. J. Randall. 1951. Protein measurement with the folin phenol reagent. J. Biol. Chem. 193:265. 59. MacGtillivary, A. J. & D. Richwood. 1974. The heterogeneity of mouse chromatin nonhistone proteins as evidenced by two-dimensional polyacryl-amide gel electrophoresis and ion-exchange chromatography. Eur. J. Biochem. 41:181. 60. Magee, B. B., J. Paolettl & P. T. Magee. 1975. Separation of lymphocyte chromatin into template-active fraction with apecificity for eukaryotic RNA polymerase II or prokaryotic RNA polymerase. Proc. Nat. Acad. Sci. USA 72:4830. 61. McCarthy, B. J., J. T. Nishiura, D. Doinecke, D. S. Nasser & C. B. Johnson. 1973. Transcription and chromatin structure. CSHSQB 38:763. 62. McConaugh, B. L. & B. J. MacCarthy. 1972. Fractionation of chromatin by thermal chromatography. Biochemiatry 11:998. 63. McGhee, J. D. & C. B. Kimnel. 1975. Evldence for a subunit structure of chromatin in mouse myeloma cells. Chrmoaoma 52:189. 64. Mirsky, A.E., C. J. Burd,.ck, E. H.. Davidson & V. C. Littau. 1968. The role of lysine-rich histone in the maintenance of chromatin structure in metaphase chromosome. Proc. Nat. Acad. Sci. USA 61:592. 65. Murphy, K. C. Jr., S. H. Ball, J. H.. Shepherd & r. S. Weise. 1973. Fractionation of mouse myeloma chromation. Biochemistry 12:3843. 66. Murray, K., E. K. Bradbury, C. Crane-Robison, R. M. Stephens, A. J. Haydon & A, R. Peacockes. 1970. The dissociation of chicken erybhrocyte deoxyribonucleoprotein and some properties of its partial nucleoproteina. Biochem. J. 120:859. 67. Nicolini, C & R. Baserga. 1975. Role of nonhistone chromosomal proteins in determining circular spectra of chromatin. Arch. Biochem. Biophys. 169:678. 68. Olina, A. L., R. D. Carlson & D E. Olins. 1975. Visualization of chrowatin substructure: v bodies, J. Cell Biol. 64:528. 69. Olins, A. L. & B. E. Olins. 1974. Spheroid chromatin units, Science 183:330. 70. Qlson, M. O. J. & II. Busch. 1974. Nuclear proteins, in The cell Nucleus (H. Busch, ed.) 3:211. 71. O'Malley, B. W. & A. R. Moans.1974. Effects of female steroid hormones on target cell nuclei, in The Cell Nucleus (H. Busch, d.) 3:379. 72. Oostarhof, D. K., J. C. Hozier & R. L. Hill. 1975. Nuclease action on chromatin: Evidence for discrete, repeated nucleoproteins units along chromatin fibrils. Proc. Nat. Acad. Sci. USA 72:633. 73. Panyim, S., D. Bilek & R. Chalkley. 1971. An electrophoresis comparison of vertebrate histonas. J. Biol, Chem. 246:4206. 74. Panyim, S. & R. Chalkley. 1969. The h3terogeneity of histones. I. A quantitative analysis of Calf thymus in very long polyacrylamid gels. Biochemistry 8:3972. 75. Panyim, S. & R. Chalkley. 1969. High resolution acrylamide gel electrophoresis of histones. Arch. Biochem. Biophys. 130:337. 76. Pardue, M. L. & J. C. Gall. 1970. Chromosomal localization of mouse satellite DNA. Science 168:1356. 77. Pardon, J. F. & M. H. F. Wilkins, 1972. A model for supercoil nucleo-histones. J. Mol. Biol. 68:115. 78. Paul, J. & R. S. Gilmour 1968 Organ-specific restriction of transcription in mammalian chromavin. J. MoL Biol. 34:305. 79. Rattner, J. B., A. Branch & B. A. Hamkalo. 1975. Electron microscopy of whole mount metaphase chaomosome. Chromosoma 52:329. 80. Reeck, G. R., R. T. Simpson & H. A. Sober. 1972. Resolution of a spectrum of nucleoprotein species in sonicated chroinatin. Proc. Nat. Acad. Sci. USA 69:2317. 81. Rill, R. & H. £. van Holde, 1973. Properties of nuclease resistant fragment of calf thymus chromatin J. Biol. Chem. 248:1080. 82. Roark, D. E., T. E. Geoghegan &. H. Keller. 1714. A two-subunit histone complex from calf thymus, Biochem. Biophys. Res. Commun. 59:304. 83. Romer, A. S. 1970. The Vertebrate body (4th ed.) pp.347. 84. Saita, H. & K. Miur. 1963. Preparation of transforming deoxyribonucleic acid by phenol treatment. Biochim. Biophys. Acta 72:619. 85. Schnedle, W. 1974. Banding patterns in chromosomes. Internat. Rev. Cytol. 4 (supple.):237. 86. Senior, N. B., A. L. Olins & D. E. Olins. 1975. Chromatin fragments resembling v bodies. Science 187:173. 87. Shaw, B. R., J. L. Gorden, L. G. Sahasrabuddhe & K. E. van Holde. 1974. Chromatographic separation of chromatin subunits. Biochem. Biophys. Res. Commun. 61:1193. 88. Shea, M. & L. J. Kieinsmith. 1973. Template-specific stimulation of RNA synthesis by phosphorylated nonhistone chromatin proteins. Biochem. Biophys. Res. Commun. 50:473. 90. Shelton, K. & T. Hamilton. 1969. Role of chromatin in estrogen action in the uterus. II. Hormone-induced synthesis of nonhistone acidic proteins which restore histone-inhibted DNA-dependent RNA synthesis. Proc. Nat. Aced. Sci. USA 63:465. 89. Shelton, K. & V. G. Allfrey. 1970. Selective synthesis of a nuclear acidic protein in liver cells stimulated by cortisol. Nature 228:132. 91. Simpson, R. T. 1972. Modification of caromatin by trypsi. The role of proteins in maintenance of deoxyribonaleic acid. Biochemistry 11:2003. 92. Simpson, R. T. 1973. Separation of transcriable and repressed chroamtin. Current Topics in Biochenistry 3:135. 93. Simpson, B, T. 1974. Distribution of RNA polymerase binding sites in fractionated chromatin. Froc. Nat. Acnd, Sci. USA 71:2740. 94. Simpson, R. T. 1974. The distribution of histones and nonhistone proteins in the ECTHAM-cellulose fractions of chromatin from several tissues. Eur. J. Biochem. 49:407. 95. Stein, G. S. & R. Baserga. 1970. Continued synthesis of nonhistone chromosomal proteins during mitosis Biochem. Biophys. Res. Commun. 41:715. 96. Stein, G. H. & T. W. Broun. 1972. The synthesis of acidic chromosomal. protsins during cell cycle of HeLa S-3-cell. J. Cell Biol. 52:292. 97. Tashiro, T. & M, Kurolawl. 1975. A conformation of chromatin. Eur. J. Biochem. 60:569. 98. Tata, J. B. 1974. Isolation of nuclei from liver and other tissue. Methods in Enzymol. 31:252. 99. Teng. C. S., C. T. Teng & V G. Allfrey. 1971 Studies of nuclear acidic proteins. J, Biol. Chem, 246:3597. 100. Wang, T. Y. 1972. Tissue specificity of nonhistone chromosomal proteins. Exp. Cell Res. 69:217. 101. Wang, T. Y. & L. M. Nyberg. 1974. Androgen receptors in the nonhistone protein fraction, of prostatic chromatin. Internat. Rev. Cytol. 39:1. 102. Webb. J. M. & H. B. Levy. 1958. New developments in the chemical deter-mination of nucleic acid. Method of Biochem. Analysis 6:10. 103. Weber, K. & H. Osborn. 1969. SDS-polyacrylamide gel electrophoresis. J. Biol. Chem. 244:4406. 104. Woodcock, C. L. F., J. P. Safer & J. E. Stanchlield. 1976. Structure repeating units in chromatin. I. Evidence for their general occurence. E. Cell Res. 97:101. 105. Yasmineh, W. G. & J. J. Yunis 1969. Satellite DNA in mouse autosomal heterochromatin. Biochem, Biophye. Res. Commun. 35:779. 106. Yasmineh, W. 0. & J. J. Yunis. 1970. Localization of mouse satellite in conatitutive heterochromatin. Exp. Coll Res. 59:69. 107. Yasminah, W. G. & J. J. Yunis. 1971. Repetitive DNA of Microtus agreetis. Biochem. Biophys. Res. Coinmun. 43:580. 108. Yasminah, W. G. & J. J. Yunis. 1971. Satellite DNA in calt heterochromatin. Exp. Cell Res. 64:41. 109. Yasmineh, W. G. & J. J. Yunls. 1974. Isolation of mammalian heterochromatin and euchromatin. Methods in. Cell Biol. 3:151. 110. Yeoman, L. C., G. W. Taylor1 J. J. Jordan & H. Bush. 1973. Two-dimensional polyacrylamide gel electroporesis of chromatin proteins of normal rat liver and Nowikoff hepatoma ascites cells. Biochem. Biophys. Res. Commun. 53:1067. 111. Yunis, J. J., L.. Roldan, W. G. Yasmineh & J. C. Lee. 1971. Staining of satellite DNA in metaphase chromosomes Nature 231:532. 112. Yunis, J. J. & U. G. Yasmineh. 1970. Satellite DNA in constitutive hetero-chromatin of guinea pig. Sclence 168:263. 113. Yunis, J. J. & W. G. Yasmineh. 1971. Heterochromatin, satellite DNA, and cell function. Science 174:1200.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75857	-
dc.description.abstract	用不同的維心力可將豬肝及示成熟睪丸之染色質劃分成三部分。染色質F1之非酸性核蛋白及酸性核蛋白□DNA之比值均大於染色質F3。各種染色質之非負性核蛋白與DNA之比值□化較明顯。將各種染色質抽取之DNA用□□□□色層分析發現DNA之組成並不相同，可能與重複DNA之含□有關。酸性核蛋白之電冰分析，發現肝□□成熟睪丸之於及DNA少許的差別，但是同組織各種染色體之酸性核蛋白無明顯的區別。染色體貼F3與F1之紫外吸光體在260-230nm間有明顯的差別，在此範圍內染色質F3之吸光度低於F1，此可能與蛋白質之含量有關。若將染色質以3X NaCl-5Murca處理，則染色質F3與F1之紫外吸光譜之差異更明顯，因此能□□者之結□有所不同，染色質F1之結構可能較緊密。肝□之染色質F1及F3在260-230nm間，其吸光度均高與睾丸，此可能與組織內質之含量有關。本實驗之初步結論?染色制裁學與F3之差異，主要與DNA及非酸性核蛋白之質與□□；而酸性核蛋白雌然□□上□有少許的變化，但質上卻無明顯的差別。	zh_TW
dc.description.provenance	Made available in DSpace on 2021-07-01T08:15:56Z (GMT). No. of bitstreams: 0 Previous issue date: 1976	en
dc.description.tableofcontents	一、緒論 l 二、材料 5 三、方法 6 （一）組織切片 6 （二）純化細胞核 6 （三）染色質之劃分 6 （四）染色質化學組成之分析 7 （五）DNA之粹取及分析 10 （六）酸性核蛋白之電冰分析 12 （七）染色質紫外吸光譜之測定 14 四、結果 15 （一）純化細胞核 15 （二）染色質之化學組成 16 （三）DNA 之分析 17 （四）酸性核蛋白之電冰分析 19 （五）染色質紫外吸光譜 27 五、討論 27 六、中文摘要 36 七、參考文獻 37
dc.language.iso	zh-TW
dc.title	染色質之比較研究	zh_TW
dc.date.schoolyear	64-2
dc.description.degree	碩士
dc.relation.page	44
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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