{"title":"Raymond W. Barratt, 1920-2002","authors":"D. Newmeyer, D. D. Perkins","doi":"10.4148/1941-4765.1155","DOIUrl":null,"url":null,"abstract":"Raymond W. Barratt 1920-2002 Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This obituary is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol50/iss1/9 20 Fungal Genetics Newsletter Obituaries Raymond W. Barratt 1920-2002 Raymond Barratt, who died of cancer in December, 2002, was a prominent player in the early development of fungal genetics. After early work with fungal plant pathogens at the Connecticut Agricultural Experiment Station, he switched to Neurospora and became Ed Tatum's first graduate student at Yale. When the Tatum lab moved to Stanford in 1948, Ray continued as a Research Fellow, conducting his own research, supervising the laboratory, and becoming a teacher, helper, and friend to all the new students and postdocs. During this period he took the initiative in assigning gene names and formulating rules of genetic nomenclature for Neurospora (1) and in bringing together genetic and phenotypic information on all the known genes into what might be called the first Neurospora compendium, which included the first comprehensive maps (2). In 1954 he went to Dartmouth as a faculty member. He organized the Fungal Genetics Stock Center (FGSC), gathering Neurospora mutant and wild-type strains, obtaining funding from NSF, perfecting preservation methods, and periodically publishing stock lists in the Neurospora Newsletter (now Fungal Genetics Newsletter). The Newsletter, produced and distributed by FGSC, was founded with Ray's help in 1961 following the first Neurospora Information Conference (now Fungal Genetics Conference), of which he was a co-organizer. He continued to direct the stock center for 25 years, during which it was expanded to include other filamentous fungi. In 1970 he resigned as chair of the Biology Department at Dartmouth and became Professor of Biology and Dean of Sciences at California State University, Humboldt, taking the stock center with him. Ray's research, though limited, contributed significantly to progress at the time. From studies of morphological mutants (3) and chemical mutagens, he turned to gene-enzyme relations. He was fascinated with mutants having complex metabolic effects; for example, phe-1 (4), ilv (5), and am (6). He was attracted to am mutants because their growth requirement could be satisfied by any of numerous amino acids, and his most extensive studies were of the am gene, which specifies NADP-specific glutamate dehydrogenase. (Stud ies of am were begun independently and carried to culmination by John Fincham and his colleagues.) After his move to Dartmouth, Ray's experimental contributions were limited by other responsibilities. He was a superb organizer, and the choice to direct the stock center and to assume various academic obligations at the expense of his research was no doubt made deliberately. The stock center was set up and run fastidiously, with help of the curator, Bill Ogata, who followed Ray from Stanford to D artmouth and later returned with him to California. FGSC proved to be a major asse t, consolidating the fungal genetics community and setting an example of quality control, genetic sophistication, and economical management. Ray reminisced in 1985 that his contribution to the field of fungal genetics through the stock center may well have been equal to what he would have accomplished had he continued in full time research. All those who work with Neurospora and other filamentous fungi owe Raymond Barratt a debt of gratitude, and those of us fortunate enough to have known him personally remember him with affection as a genial, enthusiastic, and always helpful colleague. Dorothy Newmeyer and David Perkins l. Barratt, R. W . 1954. Neurospora nomenclature in use at Stanford University. Microbial Genet. Bull. 9: 20-23. 2. Barratt, R. W., D. Newmeyer, D. D. Perkins, and L. Garnjobst. 1954. Map construction in Neurospora crassa . Advan. Genet. 6: 1-93. 3. Barratt, R. W., and L. Garnjobst. 1949. Genetics of a colonial microconidiating mutant strain of Neurospora crassa . Genetics 34: 351-369. 4. Barratt, R. W., R. C. Fuller, and S. W. Tanenbaum. 1956. Amino acid interrelationships in certain leucineand aromaticrequiring strains of Neurospora crassa . J. Bacteriol. 71: 108-114. 5. Adelberg, E. A., C. A. Coughlin, and R. W. Barratt. 1955. The biosynthesis of isoleucine and valine. II. Independence of the biosynthetic pathways in Neurospora. J . Biol. Chem. 216: 425-430. 6. Barratt, R. W. 1961. Studies on gene-protein relations with glutamic dehydrogenase in Neurospora crassa . Genetics. 46: 849-850. -1962. Altered proteins produced by mutation at the amination (am) locus in Neurospora. Genetics. 47: 941-942. -1963. Effect of environmental conditions on the NAD P-specific glutamic acid dehydrogenase in Neurospora crassa . J. Gen. Microbiol. 33: 33-42. Published by New Prairie Press, 2017","PeriodicalId":12490,"journal":{"name":"Fungal Genetics Reports","volume":"60 1","pages":"20-20"},"PeriodicalIF":0.0000,"publicationDate":"2003-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Raymond W. Barratt, 1920-2002\",\"authors\":\"D. Newmeyer, D. D. Perkins\",\"doi\":\"10.4148/1941-4765.1155\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Raymond W. Barratt 1920-2002 Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This obituary is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol50/iss1/9 20 Fungal Genetics Newsletter Obituaries Raymond W. Barratt 1920-2002 Raymond Barratt, who died of cancer in December, 2002, was a prominent player in the early development of fungal genetics. After early work with fungal plant pathogens at the Connecticut Agricultural Experiment Station, he switched to Neurospora and became Ed Tatum's first graduate student at Yale. When the Tatum lab moved to Stanford in 1948, Ray continued as a Research Fellow, conducting his own research, supervising the laboratory, and becoming a teacher, helper, and friend to all the new students and postdocs. During this period he took the initiative in assigning gene names and formulating rules of genetic nomenclature for Neurospora (1) and in bringing together genetic and phenotypic information on all the known genes into what might be called the first Neurospora compendium, which included the first comprehensive maps (2). In 1954 he went to Dartmouth as a faculty member. He organized the Fungal Genetics Stock Center (FGSC), gathering Neurospora mutant and wild-type strains, obtaining funding from NSF, perfecting preservation methods, and periodically publishing stock lists in the Neurospora Newsletter (now Fungal Genetics Newsletter). The Newsletter, produced and distributed by FGSC, was founded with Ray's help in 1961 following the first Neurospora Information Conference (now Fungal Genetics Conference), of which he was a co-organizer. He continued to direct the stock center for 25 years, during which it was expanded to include other filamentous fungi. In 1970 he resigned as chair of the Biology Department at Dartmouth and became Professor of Biology and Dean of Sciences at California State University, Humboldt, taking the stock center with him. Ray's research, though limited, contributed significantly to progress at the time. From studies of morphological mutants (3) and chemical mutagens, he turned to gene-enzyme relations. He was fascinated with mutants having complex metabolic effects; for example, phe-1 (4), ilv (5), and am (6). He was attracted to am mutants because their growth requirement could be satisfied by any of numerous amino acids, and his most extensive studies were of the am gene, which specifies NADP-specific glutamate dehydrogenase. (Stud ies of am were begun independently and carried to culmination by John Fincham and his colleagues.) After his move to Dartmouth, Ray's experimental contributions were limited by other responsibilities. He was a superb organizer, and the choice to direct the stock center and to assume various academic obligations at the expense of his research was no doubt made deliberately. The stock center was set up and run fastidiously, with help of the curator, Bill Ogata, who followed Ray from Stanford to D artmouth and later returned with him to California. FGSC proved to be a major asse t, consolidating the fungal genetics community and setting an example of quality control, genetic sophistication, and economical management. Ray reminisced in 1985 that his contribution to the field of fungal genetics through the stock center may well have been equal to what he would have accomplished had he continued in full time research. All those who work with Neurospora and other filamentous fungi owe Raymond Barratt a debt of gratitude, and those of us fortunate enough to have known him personally remember him with affection as a genial, enthusiastic, and always helpful colleague. Dorothy Newmeyer and David Perkins l. Barratt, R. W . 1954. Neurospora nomenclature in use at Stanford University. Microbial Genet. Bull. 9: 20-23. 2. Barratt, R. W., D. Newmeyer, D. D. Perkins, and L. Garnjobst. 1954. Map construction in Neurospora crassa . Advan. Genet. 6: 1-93. 3. Barratt, R. W., and L. Garnjobst. 1949. Genetics of a colonial microconidiating mutant strain of Neurospora crassa . Genetics 34: 351-369. 4. Barratt, R. W., R. C. Fuller, and S. W. Tanenbaum. 1956. Amino acid interrelationships in certain leucineand aromaticrequiring strains of Neurospora crassa . J. Bacteriol. 71: 108-114. 5. Adelberg, E. A., C. A. Coughlin, and R. W. Barratt. 1955. The biosynthesis of isoleucine and valine. II. Independence of the biosynthetic pathways in Neurospora. J . Biol. Chem. 216: 425-430. 6. Barratt, R. W. 1961. Studies on gene-protein relations with glutamic dehydrogenase in Neurospora crassa . Genetics. 46: 849-850. -1962. Altered proteins produced by mutation at the amination (am) locus in Neurospora. Genetics. 47: 941-942. -1963. Effect of environmental conditions on the NAD P-specific glutamic acid dehydrogenase in Neurospora crassa . J. Gen. Microbiol. 33: 33-42. 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摘要
本作品采用知识共享署名-相同方式共享4.0许可协议。这则讣告可在真菌遗传学报告中找到:http://newprairiepress.org/fgr/vol50/iss1/9 20真菌遗传学通讯讣告Raymond W. Barratt 1920-2002 Raymond Barratt于2002年12月死于癌症,是真菌遗传学早期发展的杰出人物。在康涅狄格农业实验站从事真菌植物病原体的早期工作后,他转向神经孢子菌,并成为埃德·塔图姆在耶鲁大学的第一个研究生。当塔图姆实验室于1948年搬到斯坦福大学时,雷继续担任研究员,进行自己的研究,监督实验室,并成为所有新生和博士后的老师、助手和朋友。在此期间,他主动为神经孢子虫指定了基因名称,并制定了遗传命名规则(1),并将所有已知基因的遗传和表型信息汇集在一起,形成了第一本神经孢子虫纲要,其中包括第一张综合地图(2)。1954年,他以教员的身份前往达特茅斯。他组织了真菌遗传库存中心(FGSC),收集神经孢子菌突变株和野生型菌株,获得美国国家科学基金会的资助,完善保存方法,并定期在《神经孢子菌通讯》(现为《真菌遗传学通讯》)上发表库存清单。1961年,在第一届神经孢子菌信息会议(现在的真菌遗传学会议)之后,在Ray的帮助下,由FGSC制作和分发的通讯成立了,Ray是该会议的共同组织者。他继续指导库存中心25年,在此期间,该中心扩大到包括其他丝状真菌。1970年,他辞去了达特茅斯大学生物系主任的职务,成为加州州立大学洪堡分校的生物学教授和理学院院长,并带走了股票中心。雷的研究虽然有限,但对当时的进步做出了重大贡献。从形态学突变体(3)和化学突变体的研究,他转向基因-酶的关系。他对具有复杂代谢影响的突变体着迷;例如,ph -1 (4), ilv(5)和am(6)。他被am突变体所吸引,因为它们的生长需求可以由众多氨基酸中的任何一种满足,他最广泛的研究是am基因,它指定nadp特异性谷氨酸脱氢酶。(对am的研究是独立开始的,由约翰·芬查姆(John Fincham)和他的同事们完成。)搬到达特茅斯后,雷的实验贡献受到其他责任的限制。他是一个出色的组织者,而选择领导股票中心和承担各种学术义务而牺牲他的研究无疑是故意的。在策展人比尔·绪方的帮助下,这个收藏中心的建立和运营都非常严谨。他跟着雷从斯坦福来到了达特茅斯,后来又和他一起回到了加利福尼亚。FGSC被证明是一个重要的asse,巩固了真菌遗传学社区,并树立了质量控制,遗传复杂性和经济管理的榜样。Ray在1985年回忆说,他通过库存中心对真菌遗传学领域的贡献很可能与他继续全职研究所取得的成就相当。所有与神经孢子菌和其他丝状真菌一起工作的人都欠雷蒙德·巴拉特一份感激之情,我们这些有幸亲自认识他的人都深情地记得他是一位和蔼、热情、总是乐于助人的同事。多萝西·纽迈耶和大卫·珀金斯·巴拉特,r.w.。1954. 斯坦福大学使用的神经孢子菌命名法。微生物麝猫。牛9:20 -23。2. Barratt, R. W., D. Newmeyer, D. Perkins和L. Garnjobst, 1954。粗神经孢子虫的图谱构建。等优点。热那亚。6:1 -93。3.Barratt, r.w.和L. Garnjobst. 1949。粗神经孢子菌微分生突变株的遗传研究。遗传学34:351-369。4. Barratt, r.w., r.c. Fuller, s.w. Tanenbaum. 1956。粗神经孢子虫某些需要亮氨酸和芳香的菌株氨基酸的相互关系。细菌学杂志。71:108-114。5. 阿德尔伯格,E. A.考夫林,R. W.巴拉特,1955。异亮氨酸和缬氨酸的生物合成。2神经孢子虫生物合成途径的独立性。J。医学杂志。化学。216:425-430。6. 巴拉特,r.w. 1961。粗草神经孢子虫谷氨酸脱氢酶基因蛋白关系的研究。遗传学报。46:849-850。-1962年。神经孢子虫胺化位点突变所产生的蛋白质改变。遗传学报。47:941-942。-1963年。环境条件对粗神经孢子虫NAD - p特异性谷氨酸脱氢酶的影响微生物学杂志,33:33-42。新草原出版社2017年出版
Raymond W. Barratt 1920-2002 Creative Commons License This work is licensed under a Creative Commons Attribution-Share Alike 4.0 License. This obituary is available in Fungal Genetics Reports: http://newprairiepress.org/fgr/vol50/iss1/9 20 Fungal Genetics Newsletter Obituaries Raymond W. Barratt 1920-2002 Raymond Barratt, who died of cancer in December, 2002, was a prominent player in the early development of fungal genetics. After early work with fungal plant pathogens at the Connecticut Agricultural Experiment Station, he switched to Neurospora and became Ed Tatum's first graduate student at Yale. When the Tatum lab moved to Stanford in 1948, Ray continued as a Research Fellow, conducting his own research, supervising the laboratory, and becoming a teacher, helper, and friend to all the new students and postdocs. During this period he took the initiative in assigning gene names and formulating rules of genetic nomenclature for Neurospora (1) and in bringing together genetic and phenotypic information on all the known genes into what might be called the first Neurospora compendium, which included the first comprehensive maps (2). In 1954 he went to Dartmouth as a faculty member. He organized the Fungal Genetics Stock Center (FGSC), gathering Neurospora mutant and wild-type strains, obtaining funding from NSF, perfecting preservation methods, and periodically publishing stock lists in the Neurospora Newsletter (now Fungal Genetics Newsletter). The Newsletter, produced and distributed by FGSC, was founded with Ray's help in 1961 following the first Neurospora Information Conference (now Fungal Genetics Conference), of which he was a co-organizer. He continued to direct the stock center for 25 years, during which it was expanded to include other filamentous fungi. In 1970 he resigned as chair of the Biology Department at Dartmouth and became Professor of Biology and Dean of Sciences at California State University, Humboldt, taking the stock center with him. Ray's research, though limited, contributed significantly to progress at the time. From studies of morphological mutants (3) and chemical mutagens, he turned to gene-enzyme relations. He was fascinated with mutants having complex metabolic effects; for example, phe-1 (4), ilv (5), and am (6). He was attracted to am mutants because their growth requirement could be satisfied by any of numerous amino acids, and his most extensive studies were of the am gene, which specifies NADP-specific glutamate dehydrogenase. (Stud ies of am were begun independently and carried to culmination by John Fincham and his colleagues.) After his move to Dartmouth, Ray's experimental contributions were limited by other responsibilities. He was a superb organizer, and the choice to direct the stock center and to assume various academic obligations at the expense of his research was no doubt made deliberately. The stock center was set up and run fastidiously, with help of the curator, Bill Ogata, who followed Ray from Stanford to D artmouth and later returned with him to California. FGSC proved to be a major asse t, consolidating the fungal genetics community and setting an example of quality control, genetic sophistication, and economical management. Ray reminisced in 1985 that his contribution to the field of fungal genetics through the stock center may well have been equal to what he would have accomplished had he continued in full time research. All those who work with Neurospora and other filamentous fungi owe Raymond Barratt a debt of gratitude, and those of us fortunate enough to have known him personally remember him with affection as a genial, enthusiastic, and always helpful colleague. Dorothy Newmeyer and David Perkins l. Barratt, R. W . 1954. Neurospora nomenclature in use at Stanford University. Microbial Genet. Bull. 9: 20-23. 2. Barratt, R. W., D. Newmeyer, D. D. Perkins, and L. Garnjobst. 1954. Map construction in Neurospora crassa . Advan. Genet. 6: 1-93. 3. Barratt, R. W., and L. Garnjobst. 1949. Genetics of a colonial microconidiating mutant strain of Neurospora crassa . Genetics 34: 351-369. 4. Barratt, R. W., R. C. Fuller, and S. W. Tanenbaum. 1956. Amino acid interrelationships in certain leucineand aromaticrequiring strains of Neurospora crassa . J. Bacteriol. 71: 108-114. 5. Adelberg, E. A., C. A. Coughlin, and R. W. Barratt. 1955. The biosynthesis of isoleucine and valine. II. Independence of the biosynthetic pathways in Neurospora. J . Biol. Chem. 216: 425-430. 6. Barratt, R. W. 1961. Studies on gene-protein relations with glutamic dehydrogenase in Neurospora crassa . Genetics. 46: 849-850. -1962. Altered proteins produced by mutation at the amination (am) locus in Neurospora. Genetics. 47: 941-942. -1963. Effect of environmental conditions on the NAD P-specific glutamic acid dehydrogenase in Neurospora crassa . J. Gen. Microbiol. 33: 33-42. Published by New Prairie Press, 2017
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