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<図書>
Nucleic acids and molecular biology
| 責任表示 | edited by Fritz Eckstein, David M.J. Lilley |
|---|---|
| データ種別 | 図書 |
| 出版情報 | Berlin ; Tokyo : Springer-Verlag , 1987- |
| 本文言語 | 英語 |
| 大きさ | v. : ill. ; 25 cm |
| 概要 | A wide range of topics are covered, including articles on nucleic acid structure, through their interactions with proteins to the control of gene expression. A number of authors address the subject o... RNA, including the difficult but important subject of its chemical synthesis, the complexities of its structures and the mechanisms of transcript splicing. The probing of DNA structure is reviewed in papers on the application of hydroxyl radical and 1,10 phenanthroline copper cleavages. A number of important DNA-protein interactions are discussed, including DNA polymerase, the tryptophan and deoR repressors, and the resolvase enzymes which cleave Holliday junctions in recombination. Gene transcription is also covered, from the points of view of DNA methylation, mammalian ribosomal and avian lysozyme genes, and the control of transcription in the proto-oncogene c-fos. Finally, the plant kingdom has not been forgotten with articles on development and transposition in plants. A wide range of topics are covered, including articles on nucleic acid structure, through their interactions with proteins to the control of gene expression. A number of authors address the subject of RNA, including the difficult but important subject of its chemical synthesis, the complexities of its structures and the mechanisms of transcript splicing. The probing of DNA structure is reviewed in papers on the application of hydroxyl radical and 1,10 phenanthroline copper cleavages. A number of important DNA-protein interactions are discussed, including DNA polymerase, the tryptophan and deoR repressors, and the resolvase enzymes which cleave Holliday junctions in recombination. Gene transcription is also covered, from the points of view of DNA methylation, mammalian ribosomal and avian lysozyme genes, and the control of transcription in the proto-oncogene c-fos. Finally, the plant kingdom has not been forgotten with articles on development and transposition in plants. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. A wide range of topics are covered, including articles on nucleic acid structure, through their interactions with proteins to the control of gene expression. A number of authors address the subject of RNA, including the difficult but important subject of its chemical synthesis, the complexities of its structures and the mechanisms of transcript splicing. The probing of DNA structure is reviewed in papers on the application of hydroxyl radical and 1,10 phenanthroline copper cleavages. A number of important DNA-protein interactions are discussed, including DNA polymerase, the tryptophan and deoR repressors, and the resolvase enzymes which cleave Holliday junctions in recombination. Gene transcription is also covered, from the points of view of DNA methylation, mammalian ribosomal and avian lysozyme genes, and the control of transcription in the proto-oncogene c-fos. Finally, the plant kingdom has not been forgotten with articles on development and transposition in plants. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. Molecular biology has always been a discipline of rapid development. Despite this, we are presently experiencing a period of unprecedented proliferation of information in nucleic acid studies and molecular biology. These areas are intimately interwoven, so that each influences the other to their mutual benefit. The rapid growth in information leads to ever-increasing specialization, so that it becomes increasingly difficult for a scientist to keep abreast of developments in all the various aspects of the field, although an up-to-date knowledge of the field as a whole is highly desirable. With this background in mind we present the series "Nucleic Acids and Molecular Biology." It comprises focused review articles by active researchers who report on the newest developments in their areas of particular interest. 続きを見る |
所蔵情報
| 状態 | 巻次 | 所蔵場所 | 請求記号 | 刷年 | 文庫名称 | 資料番号 | コメント | 予約・取寄 | 複写申込 | 自動書庫 |
|---|---|---|---|---|---|---|---|---|---|---|
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V. 2. | 理系図2F 開架 | 464.27/E 19 | 1988 |
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068252190008083 |
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子書誌情報
| 1 | v. 17 Small RNAs : analysis and regulatory functions / Wolfgang Nellen, Christian Hammann (eds.) Berlin : Springer-Verlag , c2006 |
書誌詳細
| 一般注記 | Includes bibliographies and index Series editor change to: H. J. Gross |
|---|---|
| 著者標目 | Eckstein, Fritz, 1932- Lilley, David M. J. (David Malcolm James), 1948- |
| 件 名 | LCSH:Deoxyribonucleic acid LCSH:Nucleic acids MESH:Genetics, Biochemical MESH:Molecular Biology MESH:Nucleic Acids |
| 分 類 | LCC:QP624 DC19:574.87/3282 NLM:QU58 NDC8:467.2 NDC8:464.27 |
| 書誌ID | 1000032557 |
| ISBN | 3540175954 |
| NCID | BA00832834 |
| 巻冊次 | v. 1 ; ISBN:3540175954 v. 1 : U.S. ; ISBN:0387175954 v. 2 ; ISBN:354018953X v. 2 : U.S. ; ISBN:038718953X v. 3 ; ISBN:3540508082 v. 3 : U.S. ; ISBN:0387508082 v. 4 ; ISBN:354052407X v. 4 : U.S. ; ISBN:038752407X v. 5 ; ISBN:3540531211 v. 5 : U.S. ; ISBN:0387531211 v. 6 : gw ; ISBN:3540552383 v. 6 : us ; ISBN:0387552383 v. 7 : gw ; ISBN:3540562184 v. 7 : us ; ISBN:0387562184 v. 8 : gw ; ISBN:3540574859 v. 8 : us ; ISBN:0387574859 v. 9 : gw ; ISBN:3540588248 |
| 登録日 | 2009.09.10 |
| 更新日 | 2009.09.17 |