簡易檢索 / 詳目顯示

回結果列表
研究生: 鄧燕妮
TENG, YEN-NI
論文名稱: 人類遺傳疾病 第壹部份:第一型黏多醣儲積症:台灣二位患者的IDUA基因突變分析 第貳部份:家族性表面蛋白B-100缺陷:台灣第二型高脂血症患者的研究
Human Genetic Diseases Part I:Mucopolysaccharidosis Type I:Mutational Analysis of the IDUA Gene in Two Chinese Patients Part II:Familial Defective Apolipoprotein B-100:a Study of Hyperlipidemia Type II Patients in Taiwan
指導教授: 李桂楨
Lee, Guey-Jen
學位類別: 博士
Doctor
系所名稱: 生命科學系
Department of Life Science
論文出版年: 2000
畢業學年度: 88
語文別: 中文
論文頁數: 166
中文關鍵詞: 艾杜醣醛酸酵素裁接接受點膽固醇低密度脂蛋白家族性表面蛋白B-100缺陷
英文關鍵詞: α-L-iduronidase, acceptor splice site, cholesterol, low density lipoprotein, familial defective apoB-100
論文種類: 學術論文
相關次數: 點閱:262下載:2
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 本論文以台灣體染色體隱性遺傳的第一型黏多醣儲積症(MPS I)及染色體顯性遺傳的家族性表面蛋白B-100缺陷(FDB)患者為對象,進行患者分子致因及相關的研究。
    第一型黏多醣儲積症部分是以聚合鏈反應(PCR)、單股核酸構形多型性(SSCP)及DNA定序法,檢視台灣二位第一型黏多醣儲積症患者的分子致因。結果發現患者D4對偶基因1發生1447del27突變(缺失胺基酸密碼454-462及絲胺酸453→精胺酸);對偶基因2上發生1474ins15突變(第463個胺基酸位置插入5個胺基酸)。患者L5亦為異型合子的突變,其遺傳自母親的對偶基因發生L346R(第346個胺基酸密碼發生T→G顛換);遺傳自父親的對偶基因則發生388-3c>g(介入子2的3'裁接接受點-3位置由C轉變成G)。含突變1447del27、1474ins15的IDUA重組質體轉移入COS-7細胞時所表現的酵素活性分別為野生型之0.1 %、0.3 %,所表現的mRNA量分別為野生型的24 %、49 %,所表現的IDUA蛋白質,則在IDUA多株抗體偵測底線之下。故D4患者的缺失及插入突變導致幾乎無法表現有活性的IDUA酵素,因此造成患者臨床上嚴重的Hurler型性狀。含L346R點突變的重組質體轉移細胞所表現的IDUA蛋白質及mRNA與野生型相較,無顯著差異,然而其所表現的IDUA酵素活性僅為野生型之0.4 %。含388-3c>g突變的對偶基因表現的mRNA量非常低,且約有4 % mRNA進行裁接時採用介入子2 3'裁接點區域中-58的cryptic CAG當裁接點,造成58個核酸的插入突變。包含突變的3'裁接點區域的重組質體,在COS-7細胞中表現時,大部分mRNA無法進行裁接,顯示3'裁接接受點-3位置為胞嘧啶(cytosine)的重要性。
    家族性表面蛋白B-100缺陷部分是以異偶合(Heteroduplex)分析、單股核酸形多型性(SSCP)分析及DNA定序等技術,檢視此樣品群apoB基因胺基酸位置3500附近的345 bp的DNA片段。結果發現二種點突變,其中ACA3528→ACG的變異並未改變所對應的胺基酸。而CGG3500→CAG的變異,造成精胺酸3500→麩胺酸醯胺(即FDB R3500Q突變)。在本研究的373個台灣的第二型高脂血症的樣品群中,一位具R3500Q突變(0.3 %;95 % CI:0.01- 1.5 %),9位具R3500W突變(2.4 %;95 % CI:1.1- 4.5 %),顯示R3500Q突變並不是造成中國人中度高脂血症的顯著因子,R3500Q患者家族的分析發現另二位R3500Q攜帶者且皆為高脂血症患者。進一步以多型性標記對突變基因進行單套型分析,結果發現R3500Q突變的單套型與報導的旅居美國舊金山華人的R3500Q相同,而不同於旅居加拿大華人的單套型。由此可知華人的R3500Q突變至少有二種不同的起源。

    The purpose of this study is to investigate two human genetic disorders, mainly autosomal recessive - mucopolysaccharidosis type I (MPS I) and autosomal dominant - familial defective apolipoprotein (apo) B-100 (FDB), at molecular level in Taiwan.
    In the study of MPS I, DNA screening for α-L-iduronidase (IDUA) gene mutations for two Chinese MPS I patients was performed by polymerase chain reaction (PCR), single-strand conformation polymorphism (SSCP), and DNA sequencing analysis. The D4 patient has 1447del27 (Ser453→Arg in addition to in frame deletion of codons 454-462) in one allele and 1474ins15 (in frame insertion of 5 unrelated amino acids at codon 463) in the other allele. Patient L5 also has heterozygous mutations; the maternal allele has L346R (T to G transversion in codon 346) and the paternal allele has 388-3c>g (C to G transversion at position -3 of the 3' splice site of intron 2). Expression of recombinant IDUA cDNA containing 1447del27 or 1474ins15 mutation showed traced amounts of α-L-iduronidase activity (0.1 %, 0.3 %) compared to that of normal cDNA upon transfection into COS-7 cells. By northern blot analysis, 24 % 1447del27 mRNA and 49 % 1474ins15 mRNA were detected. The IDUA protein produced by 1447del27 and 1474ins15 mutations was beyond the detection by IDUA polyclonal antibody. The data suggest that the 1447del27 and 1474ins15 mutations result in the severe Hurler phenotype of the D4 patient. In transfected COS-7 cells, L346R showed no appreciable α-L-iduronidase activity (0.4 % of normal activity), although it did not cause apparent reduction in IDUA mRNA or protein level. The 388-3c>g mutation caused a significant decrease in the level of IDUA mRNA. In about 4 % time, the mutation caused the cells to use a cryptic CAG sequence 58 bp upstream from the 3' splice site and lead to insertion of 58 intronic nucleotides. IDUA cDNA containing mutated acceptor splice site showed low efficiency of splicing in expression study. The results provide further support for the importance of cytosine at -3 position in RNA processing.
    In the study of FDB, the apo B gene segment around codon 3500 was screened by heteroduplex analysis, single strand conformation polymorphism (SSCP) analysis and DNA sequencing analysis in a total of 373 hyperlipidemic individuals. Two single-base mutations were detected. One mutation, ACA3528→ACG change, resulted in degenerate codon with no amino acid substitution. The other mutation, CGG3500→CAG mutation, resulted in an Arg3500→Gln substitution (R3500Q). The prevalence of heterozygote in this selected population was 0.3 % (95 % confidence interval, 0.01-1.5 %) for the R3500Q mutation, and 2.4 % (95 % confidence interval, 1.1-4.5 %) for the previously described R3500W mutation. The results suggest that R3500Q mutation is not a significant factor contributing to moderate hypercholesterolemia in Chinese (P = 0.027). Family studies of the R3500Q carrier revealed an extra two individuals heterozygous for the mutation, and both of them were hypercholesterolemic. An analysis of the R3500Q allele using 6 diallelic markers and the 3'HVR marker revealed a haplotype which was the same as that reported in a Chinese American but differed from that reported in a Chinese Canadian. The data support limited multiple recurrent origins for R3500Q in Chinese population.

    目錄…………………………………………………..………..….I 中文摘要…………………………………………..……………..VIII 英文摘要…………………………………………………………X 圖表次………………………………….……………………..….XIII 第壹部份:第一型黏多醣儲積症:台灣二位患者的IDUA基因突變分析 壹、緒論…………………………………………...……………1 貳、研究材料與方法………………………………………...11 一、MPS I患者的樣品…………………………………….…….11 二、細胞培養(fibroblast, COS-7)……………..……………...11 三、核酸萃取…………………………………………………….12 (一)基因組DNA萃取………………………………………..12 (二)纖維母細胞mRNA的抽取……...…………………….....14 (三)COS-7細胞total RNA的抽取…………………………...15 (四)水稻total RNA的抽取…………………………………...15 四、聚合鏈反應(PCR)……………………………………..16 五、反轉錄-聚合鏈反應(RT-PCR)………………………...17 六、單股核酸構形多型性(SSCP)分析……………………….18 (一)樣品處理…………………..……………………………....18 (二)電泳………………………………………………………..18 (三)銀染呈色…………………………………………………..19 七、IDUA基因表現子片段的選殖與製備……..…….……..…..19 (一)瓊脂膠體純化DNA片段………….……………………..19 (二)接合反應…………………………………………………..20 (三)大腸桿菌轉形勝任細胞的製備……………………….….21 (四)大腸桿菌的轉形作用………………………………….….21 (五)重組質體的篩選與製備…………………………………..22 八、DNA定序…………………………………………..………..24 (一)雙去氧核酸鏈停止反應…………………………………..24 (二)Bind-Silance玻璃的處理………………………………....25 (三)6 %聚丙烯醯胺膠體的製備……………………………....26 (四)定序電泳的進行…………………………………………..26 九、IDUA cDNA重組質體的構築及製備……………………....27 十、重組質體的轉移……………………………………………..29 十一、質體轉移效率的測定……………………………………..30 十二、細胞液(cell lysate)的製備與IDUA活性的測定……..30 (一) 細胞的收集及細胞液的製備……………………………..31 (二)水稻葉片細胞液的製備…………………………………..31 (三)總蛋白的定量……………………………………………..32 (四)IDUA酵素活性的測定…………………………….….….32 十三、北方轉漬法分析…………………………………………..33 (一) 探針的製作………………………………………………..33 (二)RNA的轉漬…………………………………………….....35 (三)雜合反應…………………………………………….……..36 十四、南方轉漬分析……………………………………...……...38 (一) 探針的製備…………..…………………………………....38 (二)DNA轉漬………………………………………………….39 (三)雜合反應…………………………………………………..40 十五、西方轉漬分析……………………………………...……...40 (一)電泳及轉漬………………………………………………..40 (二)免疫染色…………………………………………………..40 十六、轉漬膜上RNA或蛋白質的定量………………………....41 十七、pJD312-IDUA轉殖載體的構築與確認…………………..42 十八、pCAMBIA1301-IDUA轉殖載體的構築與確認…………42 十九、農桿菌轉形與鑑定………………………………………...43 (一)農桿菌轉形勝任細胞的製備.….……………………...…..43 (二)農桿菌轉形作用…………………...……….……….……..43 (三)農桿菌質體DNA的抽取………………...…………….…44 二十、水稻癒傷組織的誘導及培養……………………………...44 二十一、農桿菌感染水稻癒傷組織及感染後培養……………...45 二十二、水稻轉殖株GUS活性染色分析………...……………..46 二十三、DNA二級結構的分析…………………...……………..46 參、結果……………………………………………………..…...48 一、患者D4、L5的IDUA基因分子研究……………………... 48 (一)嚴重型Hurler患者D4………………………………….....48 1、IDUA基因突變分析……………………..………………..48 2、突變對IDUA酵素活性的影響…………………………...49 (1)pcDNA3-IDUA/1447del27、pcDNA3-IDUA/1474ins15 重組質體的構築與確認…………………………...…....49 (2)重組質體轉移效率的測定………………………….…..49 (3)突變對IDUA mRNA表現量的影響…………………..50 (4)突變對IDUA蛋白質表現量的影響…………………...50 (5)突變對IDUA酵素活性的影響………………...……....51 (二)中間型Hurler/Scheie患者L5……………………………..51 1、IDUA基因突變分析…………………….………………...51 2、388-3c>g突變對於mRNA裁接及表現的影響…………..52 3、388-3c>g突變對IDUA酵素活性的影響……………....…53 (1)pcDNA3-IDUA/388-3g、pcDNA3-IDUA/388-3c、 pcDNA3-IDUA/L346R重組質體的構築與確認…….…53 (2)重組質體轉移效率的測定………………………………54 (3)重組質體的轉移與IDUA活性的測定.…………...……54 (4)重組質體的轉移中IDUA mRNA表現的測定………...55 (5)突變對IDUA蛋白質表現量的影響……………….…...56 二、IDUA轉殖水稻的建立…………………………………….…56 (一)pJD312-IDUA重組質體的確認..………………….……..57 (二)pCAMBIA1301-IDUA重組質體的確認..………….….....57 (三)農桿菌感染水稻癒傷組織及感染後培養………….…….58 (四)南方轉漬分析法鑑定IDUA基因轉殖水稻...…………...58 (五)水稻轉殖株GUS活性染色分析………….....…………...59 (六)水稻轉殖株的北方轉漬分析………………...…………...59 (七)水稻轉殖株IDUA蛋白質的西方轉漬分析及IDUA活 性測定……………………………………………………...60 肆、討論…………………………………………………......…..61 伍、參考文獻……………………………………………...…....68 第貳部份:家族性表面蛋白B-100缺陷:台灣第二型高脂血症患者的研究 壹、緒論………………………………………………………...81 一、血漿脂蛋白…………………………………………………..81 二、脂質代謝……………………………………………………..82 三、膽固醇的代謝與異常分類…………………………………..83 四、ApoB-100表面蛋白………………………………….……...86 五、ApoB基因的突變分析……………………………………....87 六、ApoB基因的多型性及突變基因的單套型分析…………....89 七、研究動機及目的……………………………………...………91 貳、研究材料及方法…………………………………….…....92 一、研究樣品及血脂測定………………………………...……....92 二、聚合鏈反應(PCR)……………………………...……....92 三、異偶合分析……………………………………….…..………93 四、單股核酸構形多型性(SSCP)分析………….…….………93 五、DNA定序分析……………………………………….……....94 六、對偶基因特定寡核酸(ASO)點印分析…….……….….94 (一)探針的製作………………………………………………...94 (二)DNA的轉漬……………………………………………….95 (三)雜合反應…………………………………………...………95 (四)呈色反應…………………………………………...……...96 七、FDB3500Q患者及其家族的RFLP分析……………………....96 八、多型性單套型分析…………………………………...……...96 九、統計分析…………………………………………...………...97 (一) 華裔R3500Q及R3500W攜帶者總膽固醇值之 比較……………………………………………….……….97 (二)華裔R3500Q攜帶者與歐美白人R3500Q攜帶者 總膽固醇之比較……………….………………………...97 (三)台灣地區國人的R3500Q與R3500W突變發生率 的比較……………………...………………………….…...98 參、結果………………………………………………….….…..99 一、異偶合分析…………………………………………………...99 二、SSCP分析…………………………………………….……....99 三、DNA定序………………………………………………….....99 四、對偶基因特定寡核酸(ASO)點印分析……….……….100 五、患者D163家族的RFLP分析……………………………....100 六、D163家族血脂分析………………………………………….101 七、D163家族R3500Q單套型分析…………………….………101 八、統計分析……………………………………………………...102 肆、討論…………………………………………………………104 伍、參考文獻…………………………………………………...110 圖………..………………………………………………..………...117 表……….………………………………………………...………...155

    王政光(1996):人類 IDUA 基因:突變及多型性對酵素活性的影響。台北市:國立臺灣師範大學碩士論文。
    戴坤蓉(1997):第一型黏多醣儲積症(MPS IH/S)的分子遺傳學研究。台北市:國立臺灣師範大學碩士論文。
    湯怡芬(1998):台北市:突變及多型性的IDUA 酵素之分子生物學研究。台北市:國立臺灣師範大學碩士論文。
    秦義雯(1998):第一型黏多醣儲積症(MPS IH/S)的分子遺傳學研究。台北市:國立臺灣師範大學碩士論文。
    Anson, D. S., Bielicki, J., and Hopwood, J. J. (1992) Correction of human MPS type I fibroblasts by retroviral mediated gene transfer of the human α-L-iduronidase gene. Hum Gene Ther 3:371-379.
    Ashton, L. J., Brooks, D. A., McCourt, P. A. G., Muller, V. J., Clements, P. R., and Hopwood, J. J. (1992) Immunoquantification and enzyme kinetics ofα-L-iduronidase in cultured fibroblasts from normal controls and mucopolysaccharidosis type I patients. Am J Hum Genet 50:787-794.
    Bach, G., Moskowitz, S. M., Tieu, P. T., Matynia, A., and Neufeld, E. F. (1993) Molecular analysis of Hurler syndrome in Druze and Muslim Arab patients in Isreal: multiple allelic mutations of the IDUA gene in a small geographic area. Am J Hum Genet 53:330-338.
    Bunge, S., Kleijer, W. J., Steglich, C., Beck, M., Zuther, C., Morris, C. P., Schwinger, E., Hopwood, J. J., Scott, H. S., and Gal, A. (1994) Mucopolysaccharidosis type I: identification of 8 novel mutations and determination of the frequency of the two commonα-L-iduronidase mutations (W402X and Q70X) among European patients. Hum Mol Genet 3:861-866.
    Bunge, S., Kleijer, W. J., Steglich, C., Beck, M., Schwinger, E., and Gal, A. (1995) Mucopolysaccharidosis type I: identification of 13 novel mutations of theα-L-iduronidase gene. Hum Mutat 6:91-94.
    Chomczynski, P., and Sacci, N. (1987) Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction. Anal Biochem 163: 156-159.
    Clarke, L. A., and Scott, H. S. (1993) Two novel mutations causing mucopolysaccharidosis type I detected by single strand conformational analysis of theα-L-iduronidase gene. Hum Mol Genet 2:1311-1312.
    Clarke, L. A., Nasir, J., Zhang, H., McDonald, H., Applegarth, D. A., Hayden, M. R., and Toone, J. (1994) Murineα-L-iduronidase: cDNA isolation and expression. Genomics 24:311-316.
    Clements, P. R., Brooks, D. A., Saccone, G. T. P., and Hopwood, J. J. (1985) Humanα-L-iduronidase: 1. Purification, monoclonal antibody production, native and subunit molecular mass. Eur J Biochem 152:21-28.
    Clements, P. R., Brooks, D. A., McCourt, P. A. G., and Hopwood, J. J. (1989) Immunopurification and characterization of humanα-L-iduronidase with the use of monoclonal antibodies. Biochem 259:199-208.
    Cross, N. C. P., Franchis, R. de., Sebastio, G., Dazzo, C., Toilan, D. R., Grepvi, C., Musumeci, S., Steinmann, B., Gitzelmann, R., and Cox, T. M. (1990) Molecular analysis of aldolase B genes in hereditary fructose intolerance. Lancet 335:306-309.
    DasGupta, U., Weston-Hafer, K., and Berg, D. E. (1987) Local DNA sequence control of delection formation in Escherichia coli plasmid pBR322. Genetics 115:41-49.
    Endo, H., Hasegawa, K., Narisawa, K., Tada, K., Kagawa, Y., and Ohta, S. (1989) Defective gene in lactic acidosis: abnormal pyruvate dehydrogenase E1 α-subunit caused by a frameshift. Am J Hum Genet 44:358-364.
    Efstratiadia, A., Posakony, J. W., Maniatis, T., Lawn, R. M., O'Connell, J. L., Blechl, A. E., Smithies, O., Baralle, F. E., Shoulders, C. C., and Proudfoot, N. J. (1980) The structure and evolution of the human β-globin gene family. Cell 21:653-668.
    Epstein, J. A., Glaser, T., Cai, J., Jepeal, L., Walton, D. S., and Maas, R. L. (1994) Two independent and interactive DNA-binding subdomains of the Pax6 paired domain are regulated by alternative splicing. Genes & Dev 8:2022-2034.
    Fairbairn, L. J., Lashford, L. S., Spooncer, E., McDermott, R. H., Lebens, G., Arrand, J. E., Arrand, J. R., Bellantuono, I., Holt, R., Hatton, C. E., Cooper, A., Besley, G. T. N., Wraith, J. E., Anson, D. S., Hopwood, J. J., and Dexter, T. M. (1996) Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow. Proc Natl Acad Sci USA 93:2025-2030.
    Farabaugh, P. J., Schmeissner, U., Hofer, M., and Miller, J. H. (1978) Genetic studies of the lac repressor: VII. On the molecular nature of spontaneous hotspots in the lacI gene of Escherichia coli. J Mol Biol 126:847-863.
    Fojo, S. S., Stalenhoef, A. F. H., Marr, K., Gregg, R. E., Ross, R. S., and Brewer, H. B. (1988) A deletion mutation in the apo C-II gene (apo c-II Nijmegen) of a patient with a deficiency of apolipoprotein C-II. J Biol Chem 263:17913-17916.
    Galas, D. J. (1978) An analysis of sequence repreats in the lacI gene of Escherichia coli. J Mol Biol 126:858-863.
    Gatti, R., DiNatale, P., Villan, R.D., Filocamo, M., Muller, V., Guo, X. H., Nelson P. V., Scott, H. S., and Hopwood, J. J. (1997) Mutation among Italian mucopolysaccharidosis type I patients. J Inher Metab Dis 20:803-806.
    Gluckman, E. (1996) Bone marrow transplantation in children with hereditary. Curr Opin Pediatr 8:42-44.
    Hasilik, A., and Neufeld, E. F. (1980) Biosynthesis of lysosomal enzymes in fibroblasts: synthesis as precursors of higher molecular weight. J Biol Chem 255:4937-4945.
    Haskins M. E., Kakkis, E. D., Wan, O., Weil, M. A., Aguirre, G. D., and Schuchman, E. H. (1995) Enzyme replacement therapy in feline mucopolysaccharidosis I (MPS I). Am J Hum Genet 57:A39
    Hawley-Nelson, P., Ciccarone, V., Gebeyehu, G., Jessee, J., and Felgner, P.L. (1993) LipofectAMINE reagent: a new, higher efficiency polycationic transfection reagent. Focus 15:73-79.
    Henrissat, B., Callebaut, I., Fabrega, S., Lehn, P., and Mornon, J. P. (1995) Conserved catalytic machinery and the prediction of a common fold for several families of glycosyl hydrolases. Proc Natl Acad Sci USA 92:7090-7094.
    Hirt, B. (1967) Selective extraction of polyoma DNA from infected mouse cell cultures. J Mol Biol 26:365-369.
    Hopwood, J. J., Muller, V., Smithson, A., and Baggett, N. (1979) A fluorometric assay using 4-methylumbelliferyl-α-L-iduronide for the estimation ofα-L-iduronidase activity and the detection of Hurler and Scheie syndromes. Clin Chim Acta 92:257-265.
    Hopwood, J. J., and Morris, C. P. (1990) The mucopolysaccharidoses: diagnosis, molecular genetics and treatment. Mol Biol Med 7:381-404.
    Hopwood, J. J., Vellodi, A., Scott, H. S., Morris, C. .P., Litjens, T., Clements, P. R., Brooks, D. A., Cooper, A., and Wraith, J. E. (1993) Long-term clinical progress in bone marrow transplanted mucopolysaccharidosis type I patients with a defined genotype. J Inher Metab Dis 16:1024-1033.
    Huang, M. M., Wong, A., Yu, X., Kakkis, E., and Kohn, D. B. (1997) Retrovirus-mediated transfer of the humanα-L-iduronidase cDNA into human hematopoietic progenitor cells leads to correction in trans of Hurler fibroblasts. Gene Ther 4:1150-1159.
    Jefferson, R. A., Kavanagh, T. A., and Bevan, M. W. (1987) GUS fusions: β-Glucuronidase as a sensitive and versatile gene fusion marker. EMBO J 6:3901-3908.
    Kakkis, E. D., Matynia, A., Jonas, A. J., Shull, R. M., and Neufeld, E. F. (1994) Overexpression of the human lysosomal enzyme α-L-iduronidase in Chinese hamster ovary cells. Protein Exp Purif 5:225-232.
    Kakkis, E. D., McEntee, M. F., Schmidtchen, A., Neufeld, E. F., Ward, D. A., Gompf, R. E., Kania, S., Bedolla, C., Chien, S. L., and Shull, R. M. (1996) Long-term and high-dose trials of enzyme replacement therapy in the canine model of mucopolysacharidosis I. Biochem Mol Med 58:156-167.
    Kornfeld, S. (1986) Trafficking of lysosomal enzymes in normal and disease states. J Clin Invest 77:1-6.
    Krawczak, M., and Cooper, D. N. (1991) Gene deletions causing human genetic disease:mechanisms of mutagenesis and the role of local DNA sequence environment. Hum Genet 86:425-441.
    Krawczak, M., Reiss, J., and Cooper, D. N. (1992) The mutational spectrum of single base-pair substitutions in mRNA splice junctions of human genes: causes and consequences. Hum Genet 90:41-54.
    Lee-Chen G. J., and Wang, T. R. (1997) Mucopolysaccharidosis type I: identification of novel mutations that cause Hurler/Scheie syndrome in Chinese families. J Med Genet 34:939-941.
    Lee-Chen, G. J., Wang,, C. K., Huang, S. F., and Day, K. R. (1998) Human α-L-idurodinase (IDUA) gene: correlation of polymorphic DNA haplotype and IDUA activity in Chinese population. Proc Natl Sci Council, ROC, Part B: Life Science 22:31-38.
    Lee-Chen, G. J., Lin, S. P., Tang, Y. F., and Chin, Y. W. (1999) Mucopolysaccharidosis type I: characterization of novel mutations affectingα-L-idurodinase activity. Clin Genet, 55: in press.
    Llewellyn, D. H., Scobie, G. A., Urquhart, A. J., Whatley, S. D., Roberts, A. G., Harrison, P. R., and Elder, G. H. (1996) Acute intermittent porphria caused by defective splicing of porphobilinogen deaminase RNA: a synonymous codon mutation at -22 bp from the 5' splice site cause skipping of exon 3. J Med Genet 33:437-438.
    MacDonald, M. E., Scott, H. S., Whaley, W. L., Pohl, T., Wasmuth, J. J., Lehrachh, H., Morris, C. P., Frischauf, A. M., Hopowood, J. J., and Guesella, J. F. (1991) Huntington disease-linked locus D4S111 exposed as theα-L-iduronidase gene. Som Cell Mol Genet 17:421-425.
    Menon, K. P., Tieu, P. T., and Neufeld, E. F. (1992) Architecture of the canine IDUA gene and mutation underlying canine mucopolysaccharidosis type I. Genomics 14:763-768.
    Michael, R. G. (1991) Biochemical mechanisms of constitutive and regulated pre-mRNA splicing. Annu Rev Cell Biol 7:559-599.
    Moskowitz, S. M., Tieu, P. T., and Neufeld, E. F. (1993) A deletion/insertion mutation in the IDUA gene in a Libyan Jewish patient with Hurler syndrome (mucopolysaccharidosis IH). Hum Mutat 2:71-73.
    Mullen, M., Smith, C. W. J., Patton, J. G., and Nadal-Ginard, B. (1991) Alpha-tropomyosin mutually exclusive exon selection: competition between branch point/pyrimidine tracts determines default exon choice. Genes Dev 5:642-655.
    Myerowitz, R., and Neufeld, E. F., (1981) Maturation of α-L-iduronidase in cultured human fibroblasts. J Biol Chem 256:3044-3048.
    Nalbantoglu, J., Miles, C., and Meuth, M. (1988) Insertion of unique and repetitive DNA fragments into the aprt locus of hamster cells. J Mol Biol 200:449-459.
    Neufeld, E. F., and Muenzer, J. (1989) The mucopolysaccharidoses. In Scriver, C. R., Beaudet, A. L., Sly, W. S., Valle, D. (eds), The metabolic basis of inherited diseases. 6th ed. New York: McGraw-Hill, pp 1565-1587.
    Pfeffer, S. R. (1991) Targeting of proteins to the lysosome. Curr Top Microbiol Immunol 170:43-63.
    Phear, G., Armstrong W., and Meuth, M. (1989) Molecular basis of spontaneous mutation at the aprt locus of hamster cells. J Mol Biol, 209:577-582.
    Reed, R. (1989) The organization of 3' splice site sequences in mammalian introns. Genets Dev 3:2113-2123.
    Roden, L. (1980) Structure and metabolism of connective tissue proteoglycans. In Lennarz, W. J. (ed), The biochemistry of glycoproteins and proteoglycans. New York: Plenum Press, pp 267-371.
    Rome, L.H., Garvin, A. J., and Neufeld, E. F. (1978) Human kidney -L-iduronidase: purification and characterization. Arch Biochem Biophys 189:344-353.
    Sambrook, J., Fritsch, E. F., and Maniatis T. (1989) Molecular cloning: a laborary manual. 2nd ed. New York: Cold Spring Harbor Laboratory Press,. pp E5, 1.21-1.25, 7.37-7.52.
    Sanger, F., Nicklen, S., and Coulson, A. R. (1977) DNA sequencing with chain-terminating inhibitors. Proc Natl Acad Sci USA 74:5463-5467.
    Schuchman, E. H., Guzman, N. A., and Desnick, R. J. (1984) Human α-L-iduronidase: 1. Purification and properties of the high uptake (higher molecular weight) and the low uptake (processed) forms. J Biol Chem 259:3132-3140.
    Scott, H. S. (1992) The molecular genetics of mucopolysaccharidosis type I, PhD thesis, University of Adelaide.
    Scott, H. S., Ashton, L. J., Eyre, H. J., Baker, E., Brooks, D. A., Callen, D. F., Sutherland, G. R., Morris, C. P., and Hopwood, J. J. (1990) Chromosomal localization of the human α-L-iduronidase gene (IDUA) to 4p16.3. Amer J Hum Genet 47:802-807.
    Scott, H. S., Anson, D. S., Orsborn, A. M., Nelson, P. V., Clements, P. R., Morris, C. P., and Hopwood, J. J. (1991a) Human α-L-iduronidase: cDNA isolation and expression. Proc Natl Acad Sci USA 88:9695-9699.
    Scott, H. S., Nelson, P. V., Hopwood, J. J., and Morris, C. P. (1991b) PCR of a VNTR linked to mucopolysaccharidosis type I and Huntington disease. Nucleic Acids Res 19:6348.
    Scott, H. S., Nelson, P. V., Hopwood, J. J., and Morris, C. P. (1991c) PCR of a KpnI RFLP in theα-L-iduronidase (IDUA) gene. Nucleic Acids Res 19:5796.
    Scott, H. S., Guo, X. H., Hopwood, J. J., and Morris, C. P. (1992a) Structure and sequence of the human α-L-iduronidase gene. Genomics 13:1311-1313.
    Scott, H. S., Litjens, T., Hopwood, J. J, and Morris, C. P. (1992b) A common mutation for mucopolysaccharidosis type I associated with a severe Hurler syndrome phenotype. Hum Mutat 1:103-108.
    Scott, H. S., Litjens, T., Hopwood, J. J., and Morris, C. P. (1992c) PCR detection of two RFLPs in exon I of the α-L-iduronidase (IDUA) gene. Hum Genet 90:327.
    Scott, H. S., Litjens, T., Nelson, P. V., Brooks, D. A., Hopwood, J. J., and Morris, C. P. (1992d) α-L-iduronidase mutations (Q70X and P533R) associate with a severe Hurler phenotype. Hum Mutat 1:333-339.
    Scott, H. S., Nelson, P. V., MacDonald, M. E., Gusella, J. F., Hopwood, J. J., and Morris, C. P. (1992e) An 86-bp VNTR within IDUA is the basis of the D4S111 polymorphic locus. Genomics 14:1118-1120.
    Scott, H. S., Nelson, P. V., Cooper, A., Wraith, J. E., Hopwood, J. J., and Morris, C. P. (1992f) Mucopolysaccharidosis type I (Hurler syndrome): linkage disequilibrium indicates the presence of a major allele. Hum Genet 88:701-702.
    Scott, H. S., Litjens, T., Nelson, P. V., Thompson, P. R., Brooks, D. A., Hopwood, J. J., and Morris, C. P. (1993a) Identification of mutations in the α-L-iduronidase gene (IDUA) that cause Hurler and Scheie syndromes. Am J Hum Genet 53:973-986.
    Scott, H. S., Nelson, P. V., Litjens, T., Hopwood, J. J., and Morris, C. P. (1993b) Multiple polymorphisms within the α-L-iduronidase gene (IDUA): implications for a role in modification of MPS-I disease phenotype. Hum Mol Genet 2:1471-1473.
    Scott, H. S., Bunge, S., Gal, A., Clarke, L. A., Morris, C. P., and Hopwood, J. J. (1995) Molecular genetics of mucopolysaccharidosis type I: diagnostic, clinical, and biological implications. Hum Mutat 6:88-302.
    Shapiro, M. B., and Senapathy, P. (1987) RNA splice junctions of different classes of eukaryotes: sequence statistics and functional implications in gene expression. Nucleic Acids Res 15:7155-7174.
    Shull, R. M., Kakkis, E. D., McEntee, M. F., Kania, S. A., Jonas, A. J., and Neufeld, E. F. (1994) Enzyme replacement in a canine model of Hurler syndrome. Proc Natl Acad Sci USA 91:12937-12941.
    Shull, R. M., Lu, X., McEntee, M. F., Bright, R. M., Pepper, K. A., and Kohn, D. B. (1996) Myoblast gene therapy in canine mucopolysaccharidosis I: abrogation by an immune reponse toα-L-iduronidase. Hum Gene Ther 7:1595-1603.
    Singer, B. S., and Westlye, J. (1988) Deletion formation in bacteriophage T4. J Mol Biol 202:233-243.
    Spranger, J. (1990) The mucopolysaccharidoses. In Emery, A. H., Rimoin, D. L., (eds), Principle and practice of medical genetics. 2nd ed, London Melbouren and New York: Churchill Livingstone, pp 1797-1806.
    Stoltzfus, L. J., Sosa-Pineda, B., Moskowitz, S. M., Menon, K. P., Dlott, B., Hooper, L., Teplow, D. B., Shull, R. M., and Neufeld, E. F. (1992) Cloning and characterization of cDNA encoding canine α-L-iduronidase. J Biol Chem 267:6570-6575.
    Studier, F. W., and Rosenberg, A. H. (1979) Genetic and physical mapping in the early region of bateriophage T7 DNA. J Mol Biol 135:917-937.
    Sul, I. W., and Korban, S. S. (1996) Genomic DNA isolation from plant tissues. Plant Tissue Culture and Biotech 2:113-116.
    Vain, P., Worland, B., Kohli, A., Snape, J. W., and Christou, P. (1998) The green fluorescent protein (GFP) as a vital screenable marker in rice transformation. Theor Appl Genet 96:164-169.
    Vellodi, A., Young, E. P., Cooper, A., Wraith, J. E., Winchester, B., Meaney, C., and Ramas, U. (1997) Bone marrow transplantation for mucopolysaccharidosis type I: experience of two British centres. Arch Dis Child 76:92-99.
    Weissenborn, D. L., Oishi, K. K., Grabau, E. A., Bennett, S. P. E., Grabowski, G. A., and Radin, D. N. (1996) Bioproduction of human enzymes in transgenic tabacco. In Collins, G. B., Shpherd, R. J. (eds), Annals of the New York Academy of Sciences: engineering plants for commercial products and applications. 1996, 792:62-71.
    Whitley, C. B., Ramsay, N. K. C., Kersey, J. H., and Krivit, W. (1986) Bone marrow transplantation for Hurler syndrome: assessment of metabolic correction. Birth Defects 22:7-24.
    Wong, C., Antonarakis, S. E., Goff, S. C., Orkin, S. H., Forget, B. G., Nathan, D. G., Giardina, P. J. V., and Kazazian, H. H. Jr. (1989) β-Thalassemia due to two novel nucleotide substitutions in consensus acceptor splice sequences of the β-globin gene. Blood 73:914-918.
    Yamagishi, A., Tomatsu, S., Fukuda, S., Uchiyama, A., Shimozawa, N., Suzuki, Y., Kondo, N., Sukegawa, K., and Orii, T. (1996) Mucopolysaccharidosis type I: identification of common mutations that cause Hurler and Scheie syndromes in Japanese populations. Hum Mutat 7:23-29.
    Zhao, K.W., Faull, K. F., Kakkis, E. D., and Neufeld, E. F. (1997) Carbohydrate structures of recombinant human α-L-iduronidase secreted by Chinese hamster ovary cells. J Biol Chem 272:22758-22765.
    蘇斐虹(1997):第二、三型高脂血症分子遺傳學的研究。台北市:國立臺灣師範大學碩士論文。
    Abdel-Wareth, L. O., Pimstone, S. N., Lagarde, J. P., Raisonnier, A., Benlian, P., Pritchard, H., Hayden, M. R., and Frohlich, J. J. (1997) Familial defective apolipoprotein B-100 in hypercholesterolemic Chinese Canadians: identification of a unique haplotype of the apolipoprotein B-100 allele. Atherosclerosis 135:181-185.
    Arnold, K. S., Balestra, M. E., Krauss, R. M., Curtiss, L. K., Young, S. G., and Innerarity, T. L. (1994) Isolation of allele-specific, receptor-binding-defective low density lipoproteins from familial defective apolipoprotein B-100 subjects. J Lipid Res 35:1469-1476.
    Bersot, T. P., Russell, S. J., Thatcher,S. R., Pomernacki, N. K., Mahley, R. W., Weisgraber, K. H., Innerarity, T. L., and Fox, C. S. (1993) A unique haplotype of the apolipoprotein B-100 allele associated with familiar defective apolipoprotein B-100 in a Chinese man discovered during a study of the prevalence of this disorder. J Lipid Res 34:1149-1154.
    Blackhart, B. D., Ludwig, E. M., Pierotti, V. R., Caiati, L., Onasch, M. A., Wallis, S. C., Powell, L., Pease, R., Knott, T. .J., Chu, M. L., Mahley, R. W., Scott, J., McCarthy, B. J., and Levy-Wilson, B. (1986) Structure of the the human apolipoprotein B gene. J Biol Chem 261:15364-15367.
    Boerwinkle, E., and Chan, L. (1989) A three codon insertion/deletion polymorphism in the signal peptide region of the human apolipoprotein B (APOB) gene directly typed by the polymerase chain reaction. Nucleic Acids Res 17:4003.
    Boren, J., Lee, I., Zhu, W., Arnold, K., Taylor, S., and Innerarity, T. L. (1998) Identification of the low density lipoprotein receptor-binding site in apolipoprotein B-100 and the modulation of its binding activity by the carbonyl terminus in familial defective ApoB-100. J Clin Invest 101:1084-1093.
    Chatterton, J. E., Schlapfer, P., Butler, E., Gutierrez, M. M., Puppione, D. L., Pullinger, C. R., Kane, J. P., Curtiss, L. K., and Schumaker, V. N. (1995) Identification of apolipoprotein B100 polymorphisms that affect low-density lipoprotein metabolism: description of a new approach involving monoclonal antibodies and dynamic light scattering. Biochemistry 34:9571-9580.
    Choong, M. L., Koay, E. S. C., Khoo, K. L., Khaw, M. C., and Sethi, S. K. (1997) Denaturing gradient-gel electrophoresis screening of familial defective apolipoprotein B-100 in a mixed Asian cohort: two cases of arginine3500→tryptophan mutation associated with a unique haplotype. Clin Chem 43:916-923.
    Cooper, D. N., and Youssoufian, H. (1988) The CpG dinucleotide and human genetic disease. Hum Genet 78:151-155.
    Dunning, A. M., Renges, H. H., Xu, C. F., Peacock, R., Brasseur, R., Laxer, G., Tikkanen, M. J., Butler, R., Saha, N., Hamsten, A., Rosseneu, M., Talmud, P., and Humphries, S. E. (1992) Two amino acid substitutions in apolipoprotein B are in complete allelic association with the antigen group (x/y) polymorphism: evidence for little recombination in the 3' end of the human gene. Am J Hum Genet 50:208-221.
    Gaffney, D., Reid, J. M., Cameron, I. M., Vass, K., Caslake, M. J., Shepherd, J., and Packard, C. J. (1995) Independent mutations at codon 3500 of the apolipoprotein B gene are associated with hyperlipidemia. Arterioscler Thromb Vasc Biol15:1025-1029.
    Henderson, B. G., Wenham, P. R., Ashby, J. P., and Blundell, G. (1997) Detecting familial defective apolipoprotein B-100 : three molecular scanning methods compared. Clin Chem 43:9,1630-1634.
    Huang, L. S., and Breslow, J. L. (1987) A unique AT-rich hypervariable minisatellite 3' to the apoB gene defines a high information restriction fragment length polymorphism. J Biol Chem 262:8952-8955.
    Innerarity, T. L., Weisgraber, K. H., Arnold, K. S., Mahley, R. W., Krauss, R. M., Vega, G. L., and Grundy, S. M. (1987) Familial defective apolipoprotein B-100: low density lipoproteins with abnormal receptor binding. Proc Natl Acad Sci USA 84:6919-6923.
    Innerarity, T. L., Mahley, R.W., Weisgraber, K. H., Bersot, T. P., Krauss, R.M., and Vega, G.L. (1990) Familial defective apolipoprotein B-100:a mutation of apolipoprotein B that causes hypercholesterolaemia. J Lipid Res 31:1337-1349.
    Knott, T. J., Pease, R. J., Powell, L. M., Wallis, S. C., Rall, S. C. J. (1986a) Complete protein sequence and identification of structural domains of human apolipoprotein B. Nature 323:734-738.
    Knott, T. J., Wallis, S. C., Pease, R. J., Powell, L. M., and Scott, J. (1986b) A hypervariable region 3' to the human apolipoprotein B gene. Nucleic Acids Res 14:9215-9216.
    Krul, E. S., Parhofer, K. G., Barrett, P. H. R., Wagner, R. D., and Schonfeld, G. (1992) ApoB-75, a truncation of apolipoprotein B associated with familial hypobetalipoproteinemia: genetic and kinetic studies. J Lipid Res 33:1037-1050.
    Lehninger, A. L., Nelson, D. L., and Cox, M. M. (1993) Principles of Biochemistry. 2nd ed. New York: Worth Publishers, pp 479-505.
    Ludwig, E. H., Blackhart, B. D., Pierotti, V. C., Caiati, L., Fortier, C., Knott, T., Scott, J., Mahley, R. W., Levy-Wilson, B., and McCarthy, B. J. (1987) DNA sequence of the human apolipoprotein B gene. DNA 6:363-372.
    Ludwig, E. H., and McCarthy, B. J. (1990) Haplotype analysis of the human apolipoprotein B mutation associated with familial defective apolipoprotein B-100. Am J Hum Genet 47:712-720.
    Miserez, A. R., and Keller, U. (1995) Differences in the phenotypic characteristics of subjects with familial defective apolipoprotein B-100 and familial hypercholesterolaemia. Arterioscler Thromb vasc biol 15:1719-1729.
    Myant, N. B., Forbes, S. A., Day, I. N. M., and Gallagher, J. (1997) Estimation of the age of the ancerstral arginine3500→giutamine mutationin human apoB-100. Genomics 45:78-87.
    Pan, W. H., and Chiang, B. N. (1995) Plasma lipid profiles and epidemiology of atherosclerotic diseases in Taiwan : a unique experience. Atherosclerosis 118:285-295.
    Parhofer, K. G., Daugherty, A., Kinoshita, M., and Schonfeld, G. (1990) Enhanced clearance from plasma of low density lipoproteins containing a truncated apolipoprotein, apoB-89. J Lipid Res 31:2001-2007.
    Pietzsch, J., Wiedemann, B., Julius, U., Nitzsche, S., Gehrisch, S., Bergmann, S., Leonhardt, W., Jaross, W., and Hanefeld, M. (1996) Increased clearance of low density lipoprotein precursors in patients with heterozygous familial defective apolipoprotein B-100: a stable isotope approach. J Lipid Res 37:2074-2087.
    Pimstone, S. N., Defesche, J. C., Clee, S. M., Bakker, H. D., Hayden, M. R., and Kastelein, J. J. P. (1997) Differences in the phenotype apolipoprotein B-100 and familial hypercholesterolemia. Atherioscler Thromb Vasc Biol 17:826-833.
    Pimstone, S. N., Sun, X. M., du Souich, C., Frohlich, J. J., Hayden, M. R., and Soutar, A. K. (1998) Phenotypic variation in heterozygous familial hypercholesterolemia: a comparison of Chinese patients with the same or similar mutations in the LDL receptor gene in China or Canada. Arterioscler Thromb Vasc Biol 18:309-315.
    Pullinger, C. R., Hennessy, L. K., Chatterton, J. E., Liu, W., Love, J. A., Mendel, C. M., Frost, P. H., Malloy, M. J., Schumaker, V. N., and Kane, J. P. (1995) Familial ligand-defective apolipoprotein B-100 : identification of a new mutation that decreases LDL receptor binding affinity. J Clin Invest 95:1225-1234.
    Rajput-Williams, J., Knott, T. J., Wallis, S. C., Sweetnam, P., Yarnell, J., Cox, N., Bell, G. I., Miller, N. E., and Scott, J. (1988) Variation of apolipoprotein-B gene is associated with obesity high blood cholesterol levels and increase risk of coronary heart disease. Lancet 24:1442-1445.
    Rauh, G., Schuster, H., Schewe, K., Stratmann, G., Keller, C., Wolfram, G., and Zollner, N. (1993) Independent mutation of Arginine3500→Giutamine associated with familial defective apolipoprotein B-100. J Lipid Res 34:799-805.
    Report of the national cholesterol education program expert panel on detection, evaluation, and treatment of high blood cholesterol in adults. (1988) The Expert Panel. Arch Intern Med 148:36-69.
    Schaefer, J. R., Scharnagl, H., Baumstark, M. W., Schweer, H., Zech, L. A., Seyberth, H., Winkler, K., Steinmetz, A., and Marz, W. (1997) Homozygous familial defective apolipoprotein B-100. Arterioscler Thromb Vasc Biol 17:348-353.
    Soria, L. F., Ludwig, E. H., Clarke, H. R. G., Vega, G. L., Grundy, S. M., and McCarthy, B. J. (1989) Association between a specific apolipoprotein B mutation and familial defective apolipoprotein B-100. Proc Natl Acad Sci USA 86:587-591.
    Tai, D. Y., Pan, J. P., and Lee-Chen, G. J. (1998) Identification and haplotype analysis of apolipoprotein B-100 Arg3500→Trp mutation in hyperlipidemic Chinese. Clin Chem 44:1659-65.
    Thompson, G. R. (1990) A Handbook of Hyperlipidemia. London: Current Science Ltd.
    Tybjaerg-Hansen, A., and Humphries, S. E. (1992) Familial defective apolipoprotein B-100: a single mutation that causes hypercholesterolaemia and premature coronary artery disease. Atherosclerosis 96:91-107.
    Tybjaerg-Hansen, A., Steffensen, R., Meinertz, H., Schnohr, P., and Nordestgaard, B. G. (1998) Association of mutations in the apolipoprotein B gene with hypercholesterolemia and the risk of ischemic heart disease. N Engl J Med 338:1577-84.
    Weisgraber, K. H., Innerarity, T. L., Newhouse, Y. M., Young, S. G., Arnold, K. S., Krauss, R. M., Vega, G. L., Grundy, S. M., and Mahley, R. W. (1988) Familial defective apolipoprotein B-100: enhanced binding of monoclonal antibody MB-47 to abnomal low density lipoproteins. Proc Natl Acad Sci USA 85:9758-9762.
    Young, S. G., Koduri, R. K., Austin, R. K., Bonnet, D. J., Smith, R. S., and Curtiss, L. K. (1994) Definition of a nonlinear conformational epitope for the apolipoprotein B-100 specific monoclonal antibody, MB47. J Lipid Res 35:399-407.
    Youssoufian, H., Kazazian, H. H., Philips, D. G., Aronis, S., Tsiftis, G., and Brown, V. A. (1986) Recurrent mutations in haemophilia A give evidence for CpG mutation hotspots. Nature 324:380-382.

    下載圖示
    QR CODE