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Items: 18

1.

Glycine, serine and threonine metabolism

Serine is derived from 3-phospho-D-glycerate, an intermediate of glycolysis [MD:M00020], and glycine is derived from serine. Threonine is an essential amino acid, which animals cannot synthesize. In bacteria and plants, threonine is derived from aspartate [MD:M00018].

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli str. K-12 substr. MG1655
2.

Phenylalanine metabolism

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli str. K-12 substr. MG1655
3.

Tyrosine metabolism

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli str. K-12 substr. MG1655
4.

L-threonine degradation III (to methylglyoxal)

General Background Microorganisms and mammals share two of the major, initial routes for threonine degradation. In the first route threonine is catabolized by :THREDEHYDCAT-CPLX (EC 4.3.1.19) to ammonia and 2-oxobutanoate. A biosynthetic version of this enzyme also occurs (see...

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli
5.

Biosynthesis of secondary metabolites

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli str. K-12 substr. MG1655
6.

Metabolic pathways

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli str. K-12 substr. MG1655
7.

beta-Alanine metabolism

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli str. K-12 substr. MG1655
8.

Glycine, serine and threonine metabolism

Serine is derived from 3-phospho-D-glycerate, an intermediate of glycolysis [MD:M00020], and glycine is derived from serine. Threonine is an essential amino acid, which animals cannot synthesize. In bacteria and plants, threonine is derived from aspartate [MD:M00018].

Type
:
pathway
Taxonomic scope
:
conserved biosystem
9.

phenylethylamine degradation I

Through a two-step process, E. coli is able to use 2-phenylethylamine as a sole carbon and energy source although this capability is strain dependent. E. coli K-10, a derivative of K-12, is able to grow on phenylethylamine as a sole carbon and energy source at 30oC but not at 37oC...

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli
10.

superpathway of L-threonine metabolism

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli
11.

L-threonine degradation III (to methylglyoxal)

General Background |FRAME: THR| is an indispensable amino acid. It is degraded by a complex network of pathways and regulatory signals |CITS: [9871012]|. Two of the major routes for the degradation of L-threonine are known to occur both in mammals and in microorganisms. In the first...

Type
:
pathway
Taxonomic scope
:
conserved biosystem
12.

superpathway of phenylethylamine degradation

|FRAME: TAX-83333| is capable of growth on |FRAME: PHENYLETHYLAMINE| as the sole carbon and energy source. |FRAME: PHENYLETHYLAMINE| is degraded to |FRAME: PHENYLACETATE| in two steps, involving a |FRAME: AMINEOXID-CPLX| and |FRAME: PHENDEHYD-CPLX|. |FRAME: PHENYLACETATE| is then...

Type
:
pathway
Taxonomic scope
:
conserved biosystem
13.

superpathway of L-threonine metabolism

|FRAME: THR| is an indispensable amino acid. It is degraded by a complex network of pathways and regulatory signals |CITS: [9871012]|. Two of the major routes for the degradation of L-threonine are known to occur both in mammals and in microorganisms. In the first route threonine...

Type
:
pathway
Taxonomic scope
:
conserved biosystem
14.

superpathway of phenylethylamine degradation

Type
:
pathway
Taxonomic scope
:
organism-specific biosystem
Organism
:
Escherichia coli
15.

Phenylalanine metabolism

Type
:
pathway
Taxonomic scope
:
conserved biosystem
16.

Tyrosine metabolism

Type
:
pathway
Taxonomic scope
:
conserved biosystem
17.

beta-Alanine metabolism

Type
:
pathway
Taxonomic scope
:
conserved biosystem
18.

phenylethylamine degradation I

|FRAME: TAX-83333| is capable of growth on |FRAME: PHENYLETHYLAMINE| as the sole carbon and energy source. 2-Phenylethylamine is degraded in two steps, first by a |FRAME: AMINEOXID-CPLX| to |FRAME: PHENYLACETALDEHYDE|, and then by |FRAME: PHENDEHYD-CPLX| to |FRAME: PHENYLACETATE|....

Type
:
pathway
Taxonomic scope
:
conserved biosystem

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