KEGG PATHWAY Database (original) (raw)

Pathway Maps

KEGG PATHWAY is a collection of manually drawn pathway maps representing our knowledge of the molecular interaction, reaction and relation networks for:

The pathway map viewer linked from this page is a part of KEGG Web Apps and contains features of KEGG mapping.

Pathway Identifiers

Each pathway map is identified by the combination of 2-4 letter prefix code and 5 digit number (see KEGG Identifier). The prefix has the following meaning:

map

manually drawn reference pathway

ko

reference pathway highlighting KOs

ec

reference metabolic pathway highlighting EC numbers

rn

reference metabolic pathway highlighting reactions

organism-specific pathway generated by converting KOs to gene identifiers

and the numbers starting with the following:

011

global map (lines linked to KOs)

012

overview map (lines linked to KOs)

013

higher (multi-organism) level overview map (lines linked to KOs) New!

010

chemical structure map (no KO expansion)

07

drug structure map (no KO expansion)

other

regular map (boxes linked to KOs)

are used for different types of maps.

Pathway maps are associated with KEGG modules, reaction modules, KEGG networks and taxonomy mapping.

M - module
R - reaction module
N - network
T - taxonomy mapping New!

1. Metabolism

1.0 Global and overview maps

1.1 Carbohydrate metabolism

1.2 Energy metabolism

1.3 Lipid metabolism

1.4 Nucleotide metabolism

1.5 Amino acid metabolism

1.6 Metabolism of other amino acids

1.7 Glycan biosynthesis and metabolism

1.8 Metabolism of cofactors and vitamins

1.9 Metabolism of terpenoids and polyketides

1.10 Biosynthesis of other secondary metabolites

00940 M

Phenylpropanoid biosynthesis

00945

Stilbenoid, diarylheptanoid and gingerol biosynthesis

00941 M

Flavonoid biosynthesis

00944

Flavone and flavonol biosynthesis

00942

Anthocyanin biosynthesis

00943 M

Isoflavonoid biosynthesis

00946 M T

Degradation of flavonoids

00901 M T

Indole alkaloid biosynthesis

00403 M

Indole diterpene alkaloid biosynthesis

00950 M

Isoquinoline alkaloid biosynthesis

00960

Tropane, piperidine and pyridine alkaloid biosynthesis

00996

Biosynthesis of various alkaloids
Including: Cucurbitacin biosynthesis, Solanine and tomatine biosynthesis, Ephedrine biosynthesis, Capsaicin biosynthesis, Acridone alkaloid biosynthesis

00232 M

Caffeine metabolism

00965 M

Betalain biosynthesis

00966 M

Glucosinolate biosynthesis

00402

Benzoxazinoid biosynthesis

00311 M T

Penicillin and cephalosporin biosynthesis

00332 M

Carbapenem biosynthesis

00261 M

Monobactam biosynthesis

00331 M

Clavulanic acid biosynthesis

00521 M

Streptomycin biosynthesis

00524

Neomycin, kanamycin and gentamicin biosynthesis

00525 M T

Acarbose and validamycin biosynthesis

00401

Novobiocin biosynthesis

00404 M T

Staurosporine biosynthesis

00405 M

Phenazine biosynthesis

00333 M T

Prodigiosin biosynthesis

00254 M

Aflatoxin biosynthesis

00998 M T

Biosynthesis of various antibiotics
Including: Kanosamine biosynthesis, Aurachin biosynthesis, Bacilysin biosynthesis, Puromycin biosynthesis, Dapdiamides biosynthesis, Fosfomycin biosynthesis, Cremeomycin biosynthesis, Fumagillin biosynthesis, Pentalenolactone biosynthesis, Terpentecin biosynthesis, Roseoflavin biosynthesis, Cycloserine biosynthesis

00999 M T

Biosynthesis of various plant secondary metabolites
Including: Crocin biosynthesis, Ginsenoside biosynthesis, Saponin adjuvant biosynthesis, Cannabidiol biosynthesis, Mugineic acid biosynthesis, Pentagalloylglucose biosynthesis, Benzoxazinoid biosynthesis, Gramine biosynthesis, Coumarin biosynthesis, Furanocoumarin biosynthesis, Hordatine biosynthesis, Podophyllotoxin biosynthesis

00997 M T

Biosynthesis of various other secondary metabolites
Including: Ditryptophenaline biosynthesis, Fumiquinazoline D biosynthesis, Paerucumarin biosynthesis, Staphyloferrin B biosynthesis, Cyclooctatin biosynthesis, Lovastatin biosynthesis, Grixazone biosynthesis, Staphyloferrin A biosynthesis, Ethynylserine biosynthesis, Aerobactin biosynthesis

1.11 Xenobiotics biodegradation and metabolism

1.12 Chemical structure transformation maps

2. Genetic Information Processing

2.1 Transcription

2.2 Translation

2.3 Folding, sorting and degradation

2.4 Replication and repair

2.5 Chromosome

2.6 Information processing in viruses

3. Environmental Information Processing

3.1 Membrane transport

3.2 Signal transduction

3.3 Signaling molecules and interaction

4. Cellular Processes

4.1 Transport and catabolism

4.2 Cell growth and death

4.3 Cellular community - eukaryotes

4.4 Cellular community - prokaryotes

4.5 Cell motility

5. Organismal Systems

5.1 Immune system

5.2 Endocrine system

5.3 Circulatory system

5.4 Digestive system

5.5 Excretory system

5.6 Nervous system

5.7 Sensory system

5.8 Development and regeneration

5.9 Aging

5.10 Environmental adaptation

6. Human Diseases

6.1 Cancer: overview

6.2 Cancer: specific types

6.3 Infectious disease: viral

6.4 Infectious disease: bacterial

6.5 Infectious disease: parasitic

6.6 Immune disease

6.7 Neurodegenerative disease

6.8 Substance dependence

6.9 Cardiovascular disease

6.10 Endocrine and metabolic disease

6.11 Drug resistance: antimicrobial

6.12 Drug resistance: antineoplastic

7. Drug Development

7.1 Chronology: Antiinfectives

7.2 Chronology: Antineoplastics

7.3 Chronology: Nervous system agents

7.4 Chronology: Other drugs

7.5 Target-based classification: G protein-coupled receptors

7.6 Target-based classification: Nuclear receptors

7.7 Target-based classification: Ion channels

7.8 Target-based classification: Transporters

7.9 Target-based classification: Enzymes

7.10 Structure-based classification

7.11 Skeleton-based classification

Last updated: October 1, 2024