Difference between revisions of "Biosynthesis/ acquisition of amino acids"

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(Biosynthesis/ acquisition of methionine/ s-adenosylmethionine)
(Biosynthesis/ acquisition of serine/ glycine/ alanine)
 
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=== Biosynthesis/ acquisition of lysine/ threonine ===  
 
=== Biosynthesis/ acquisition of lysine/ threonine ===  
* [[asd]]
+
* ''[[asd]]''
* [[dapA]]
+
* ''[[dapA]]''
* [[dapB]]
+
* ''[[dapB]]''
* [[dapF]]
+
* ''[[dapF]]''
* [[dapG]]
+
* ''[[dapG]]''
* [[dapI]]
+
* ''[[dapI]]''
* [[hom]]
+
* ''[[hom]]''
* [[lysA]]
+
* ''[[lysA]]''
* [[lysC]]
+
* ''[[lysC]]''
* [[patA]]
+
* ''[[patA]]''
* [[thrB]]
+
* ''[[thrB]]''
* [[thrC]]
+
* ''[[thrC]]''
* [[yclM]]
+
* ''[[thrD]]''
* [[ykuQ]]
+
* ''[[thrR]]''
* [[yvsH]]
+
* ''[[ykuQ]]''
 +
* ''[[yvsH]]''
  
 
=== Biosynthesis/ acquisition of lysine/ threonine/ based on similarity ===  
 
=== Biosynthesis/ acquisition of lysine/ threonine/ based on similarity ===  
Line 94: Line 95:
 
* [[glyA]]
 
* [[glyA]]
 
* [[serA]]
 
* [[serA]]
 +
* [[serB]]
 
* [[serC]]
 
* [[serC]]
 
* [[yrbD]]
 
* [[yrbD]]

Latest revision as of 18:27, 15 February 2017

Parent categories
Neighbouring categories
Related categories

Genes in this functional category

Biosynthesis/ acquisition of glutamate/ glutamine/ ammonium assimilation

Biosynthesis/ acquisition of proline

Biosynthesis/ acquisition of proline/ based on similarity

Biosynthesis/ acquisition of arginine

Biosynthesis/ acquisition of aspartate/ asparagine

Biosynthesis/ acquisition of lysine/ threonine

Biosynthesis/ acquisition of lysine/ threonine/ based on similarity

Biosynthesis/ acquisition of serine/ glycine/ alanine

Biosynthesis/ acquisition of cysteine

Biosynthesis/ acquisition of methionine/ s-adenosylmethionine

Biosynthesis/ acquisition of methionine/ s-adenosylmethionine/ based on similarity

Biosynthesis/ acquisition of branched-chain amino acids

Biosynthesis/ acquisition of aromatic amino acids

Biosynthesis/ acquisition of histidine

Important publications

Allison Kriel, Shaun R Brinsmade, Jessica L Tse, Ashley K Tehranchi, Alycia N Bittner, Abraham L Sonenshein, Jue D Wang
GTP dysregulation in Bacillus subtilis cells lacking (p)ppGpp results in phenotypic amino acid auxotrophy and failure to adapt to nutrient downshift and regulate biosynthesis genes.
J Bacteriol: 2014, 196(1);189-201
[PubMed:24163341] [WorldCat.org] [DOI] (I p)

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