Category:BM
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− | {{Huge|Basic | + | {{Huge|Basic Metabolism (基礎代謝)}} |
− | + | {{Basic Metabolism/Header}} | |
− | ==Class Overview== | + | =={{Bilingual|概要|Class Overview}}== |
{{Twocolumn| | {{Twocolumn| | ||
− | (The following description is translated from an article by Arita in "Encyclopedia of Bioinformatics" under the publisher's permission, Kyoritsu Co. Ltd.) | + | (The following description is translated from an article written by Arita in "Encyclopedia of Bioinformatics" under the publisher's permission, Kyoritsu Co. Ltd.) |
<br><br> | <br><br> | ||
− | Metabolism is the total body of physicochemical reactions inside living systems. It can be functionally divided into two groups: the basic (or primary) metabolism essential for maintenance of life systems, and the non-essential secondary metabolism. Basic metabolites therefore include bases, amino acids, sugars, and fatty acids (building blocks of DNA, protein, carbohydrate, and fat, respectively). Also included are lignin and cellulose which are essential for plant growth. On the other hand, the secondary metabolism provides species-specific functions. It includes medicinal metabolites such as antibiotics and | + | Metabolism is the total body of physicochemical reactions inside living systems. It can be functionally divided into two groups: the basic (or primary) metabolism essential for maintenance of life systems, and the non-essential secondary metabolism. Basic metabolites therefore include bases, amino acids, sugars, and fatty acids (building blocks of DNA, protein, carbohydrate, and fat, respectively). Also included are lignin and cellulose which are essential for plant growth. On the other hand, the secondary metabolism provides species-specific functions. It includes medicinal metabolites such as antibiotics and crude drugs. |
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代謝とは, 生体内でおこなわれる物理化学反応の総体, または特定の分子に関与する物理化学反応の総体です. 機能の観点から, 生命の維持に必須の物質群に関わる基礎/一次代謝と, 生命維持に必須ではない二次代謝に分けられます. 生命に欠かせない核酸, アミノ酸, 糖, 脂肪酸 (それぞれDNA,タンパク質,炭水化物, 脂質の構成単位) は基礎代謝物とよばれ, また植物に必須のリグニンやセルロースも基礎代謝物に分類されます. これに対し二次代謝は, 生物種に固有の機能を提供する部分です. 抗生物質や生薬など, 人間が利用してきた薬効成分はいずれも二次代謝物に属します. | 代謝とは, 生体内でおこなわれる物理化学反応の総体, または特定の分子に関与する物理化学反応の総体です. 機能の観点から, 生命の維持に必須の物質群に関わる基礎/一次代謝と, 生命維持に必須ではない二次代謝に分けられます. 生命に欠かせない核酸, アミノ酸, 糖, 脂肪酸 (それぞれDNA,タンパク質,炭水化物, 脂質の構成単位) は基礎代謝物とよばれ, また植物に必須のリグニンやセルロースも基礎代謝物に分類されます. これに対し二次代謝は, 生物種に固有の機能を提供する部分です. 抗生物質や生薬など, 人間が利用してきた薬効成分はいずれも二次代謝物に属します. | ||
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+ | =={{Bilingual|Metabolite Category|代謝物の種類}}== | ||
+ | |||
+ | * [[Aritalab:Lecture/Biochem/Amino Acid|アミノ酸]] | ||
+ | * [[Aritalab:Lecture/Biochem/Saccharide|糖]] | ||
+ | * [[Aritalab:Lecture/Biochem/Nucleic Acid|核酸]] | ||
+ | * [[Aritalab:Lecture/Biochem/Lipid|脂質]] | ||
==Design of Basic Metabolite ID numbers <small>ID番号の設計</small>== | ==Design of Basic Metabolite ID numbers <small>ID番号の設計</small>== | ||
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&&BMACPL&&pyrrolidine ring ピロリジン&& | &&BMACPL&&pyrrolidine ring ピロリジン&& | ||
&&BMACIZ&&imidazole ring イミダゾール&& | &&BMACIZ&&imidazole ring イミダゾール&& | ||
− | |||
&&BMFY&&Fatty acyl 脂肪酸&& | &&BMFY&&Fatty acyl 脂肪酸&& | ||
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&&BMSUM4&&monosaccharide (4 carbons) 単糖(4炭素)&& | &&BMSUM4&&monosaccharide (4 carbons) 単糖(4炭素)&& | ||
+ | &&BMSUM4A&&aldose アルドース&& | ||
+ | &&BMSUM4K&&ketose ケトース&& | ||
+ | &&BMSUM4H&&sugar alcohol 糖アルコール&& | ||
+ | |||
&&BMSUM5&&monosaccharide (5 carbons) 単糖(5炭素)&& | &&BMSUM5&&monosaccharide (5 carbons) 単糖(5炭素)&& | ||
+ | &&BMSUM5A&&aldose アルドース&& | ||
+ | &&BMSUM5K&&ketose ケトース&& | ||
+ | &&BMSUM5H&&sugar alcohol 糖アルコール&& | ||
+ | &&BMSUM5N&&amino sugar アミノ糖&& | ||
+ | &&BMSUM5U&&uronic acid ウロン酸&& | ||
+ | &&BMSUM5L&&saccharic lactone 糖ラクトン&& | ||
+ | |||
&&BMSUM6&&monosaccharide (6 carbons) 単糖(6炭素)&& | &&BMSUM6&&monosaccharide (6 carbons) 単糖(6炭素)&& | ||
+ | &&BMSUM6A&&aldose アルドース&& | ||
+ | &&BMSUM6K&&ketose ケトース&& | ||
+ | &&BMSUM6H&&sugar alcohol 糖アルコール&& | ||
+ | &&BMSUM6N&&amino sugar アミノ糖&& | ||
+ | &&BMSUM6U&&uronic acid ウロン酸&& | ||
+ | &&BMSUM6L&&saccharic lactone 糖ラクトン&& | ||
+ | |||
&&BMSUM7&&monosaccharide (7 carbons) 単糖(7炭素)&& | &&BMSUM7&&monosaccharide (7 carbons) 単糖(7炭素)&& | ||
+ | &&BMSUM7A&&aldose アルドース&& | ||
+ | &&BMSUM7K&&ketose ケトース&& | ||
+ | &&BMSUM7U&&uronic acid ウロン酸&& | ||
+ | |||
&&BMSUM8&&monosaccharide (8 carbons) 単糖(8炭素)&& | &&BMSUM8&&monosaccharide (8 carbons) 単糖(8炭素)&& | ||
+ | &&BMSUM8A&&aldose アルドース&& | ||
+ | &&BMSUM8K&&ketose ケトース&& | ||
+ | &&BMSUM8U&&uronic acid ウロン酸&& | ||
+ | |||
&&BMSUM9&&monosaccharide (9 carbons) 単糖(9炭素)&& | &&BMSUM9&&monosaccharide (9 carbons) 単糖(9炭素)&& | ||
+ | &&BMSUM9A&&aldose アルドース&& | ||
+ | &&BMSUM9K&&ketose ケトース&& | ||
+ | &&BMSUM9U&&uronic acid ウロン酸&& | ||
+ | |||
+ | &&BMSUD2&&disaccharide (12 carbons) 二糖(12炭素)&& | ||
+ | &&BMSUD2A&&aldose アルドース&& | ||
+ | &&BMSUD2K&&ketose ケトース&& | ||
+ | &&BMSUD2H&&sugar alcohol 糖アルコール&& | ||
+ | &&BMSUD2N&&amino sugar アミノ糖&& | ||
+ | |||
+ | &&BMSUPn&&polysaccharide 多糖&& | ||
+ | &&BMSUP2A&&aldose アルドース&& | ||
+ | &&BMSUP2K&&ketose ケトース&& | ||
+ | &&BMSUP2N&&amino sugar アミノ糖&& | ||
&&BMXX&&Others その他&& | &&BMXX&&Others その他&& | ||
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&&BMXXB&&branched chain 分岐&& | &&BMXXB&&branched chain 分岐&& | ||
---> | ---> | ||
+ | |||
+ | {{Doc:SysName}} |
Latest revision as of 13:46, 2 June 2011
Basic Metabolism (基礎代謝)
Basic Metabolism Top (代謝トップ) |
Molecule Index (化合物索引) |
EC classes ( EC分類) |
Input New Data (新規入力) |
Contents |
[edit] Class Overview
(The following description is translated from an article written by Arita in "Encyclopedia of Bioinformatics" under the publisher's permission, Kyoritsu Co. Ltd.)
Metabolism is the total body of physicochemical reactions inside living systems. It can be functionally divided into two groups: the basic (or primary) metabolism essential for maintenance of life systems, and the non-essential secondary metabolism. Basic metabolites therefore include bases, amino acids, sugars, and fatty acids (building blocks of DNA, protein, carbohydrate, and fat, respectively). Also included are lignin and cellulose which are essential for plant growth. On the other hand, the secondary metabolism provides species-specific functions. It includes medicinal metabolites such as antibiotics and crude drugs.
[edit] 代謝物の種類
[edit] Design of Basic Metabolite ID numbers ID番号の設計
12-DIGIT
B | M | a | a | b | b | c | c | d | d | e | e |
- a ... Structure type (Table 1)
- b ... degree of unsaturation (Table 2)
- c ... position of n-z (n minus z; also ω-z or omega-z) nomenclature (Table 3)
- d ... structure type (Table 4)
- e ... serial number
[edit] Systematic Name of Enzymes (酵素のシステム名)
EC (Enzyme Commission) number is assigned according to the type of reaction catalysed (EC level 1) and the type(s) of the substrate(s). Since reactions are written for the purpose of classification, the direction does not reflect the actually demonstrated catalysis. The systematic name always reflects the first enzyme-catalysed step, and subsequent transformations are written in parentheses, e.g. acetyl-CoA:glyoxylate C-acetyltransferase (thioester-hydrolysing, carboxymethyl-forming) (EC 2.3.3.9).
- In this class, a substrate is oxidized as hydrogen donor. The systematic name is donor:acceptor oxidoreductase. The common name is usually dehydrogenase, reductase (when reverse reaction is demonstrated), or oxydase (only when O2 is the acceptor).
- In this class, a chemical 'group' is transferred from a 'donor' to an 'acceptor'. The systematic name is donor:acceptor grouptransferase. The common name is usually acceptor grouptransferase, donor grouptransferase, or phosphorylase (when phosphate is an acceptor). Transaminase is formally considered as the combination of oxidative deamination of the donor followed by reductive amination of the acceptor, but is classified in this class (EC 2.6.1).
- In this class, hydrolytic cleavage of C-O, C-N, C-C and some other bonds occurs. The systematic name is hydrolase. The common name is usually the substrate name with -ase. Hydrolase is formally considered as tranfer of a specific group to water as acceptor. The names of peptide hydrolases (proteinase) is based on their 'esterolytic' action.
- In this class, C-C, C-O, C-N, and other bonds are cleaved by elimination, leaving double bonds or rings. The systematic name is substrate group-lyase. Major common names are decarboxylase, aldolase, and dehydratase. When reverse reaction is demonstrated, synthase (not synthetase) may be used. Pyridoxal-phosphate enzymes usually replace the eliminated substituent by some other group, and therefore, may be formally considered as alkyl-transferase.
- In this class, geometry or structure is changed within one molecule. Common names include racemase, epimerase, (cis-trans-)isomerase, tautomerase, mutase or cycloisomerase.
- In this class, two substrates are joined with the hydrolysis of ATP. The systematic name is X:Y ligase (ADP-forming). An obsolete common name is synthetase (not synthase in EC4).
[edit] Systematic Name of Metabolites (代謝物のシステム名)
準備中
Subcategories
This category has the following 8 subcategories, out of 8 total.