Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
Disease
Symptom
Drug
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Target Concepts:
Gene/Protein
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Histidine
(
His
) is an essential ingredient for protein synthesis and is required by all living organisms. In higher plants, although there is considerable evidence that
His
is essential for plant growth and survival, there is very little information as to whether it plays any specific role in plant development. Here, we present evidence for such a role of this amino acid in root development in Arabidopsis (Arabidopsis thaliana) from the characterization of a novel Arabidopsis mutant, hpa1, which has a very short root system and carries a mutation in one of the two Arabidopsis histidinol-phosphate aminotransferase (HPA) genes, AtHPA1. We have established that AtHPA1 encodes a functional HPA and that its complete knockout is embryo lethal. Biochemical analysis shows that the mutation in hpa1 only resulted in a 30% reduction in free
His
content and had no significant impact on the total
His
content. It did not cause any known symptoms of
His
starvation
. However, the mutant displayed a specific developmental defect in root meristem maintenance and was unable to sustain primary root growth 2 d after germination. We have demonstrated that the root meristem failure in the mutant is tightly linked to the reduction in free
His
content and could be rescued by either exogenous
His
supplementation or AtHPA1 overexpression. Our results therefore reveal an important role of
His
homeostasis in plant development.
...
PMID:The hpa1 mutant of Arabidopsis reveals a crucial role of histidine homeostasis in root meristem maintenance. 1681 50
Transition metals participate in numerous enzymatic reactions and they are essential for survival in all living organisms. For this reason, bacterial pathogens have evolved dedicated machineries to effectively compete with their hosts and scavenge metals at the site of infection. In this study, we investigated the mechanisms controlling metal acquisition in the emerging human pathogen
Mycoplasma genitalium
. We observed a robust transcriptional response to metal
starvation
, and many genes coding for predicted lipoproteins and ABC-transporters were significantly up-regulated. Transcriptional analysis of a mutant strain lacking a metalloregulator of the Fur family revealed the activation of a full operon encoding a putative metal transporter system and a gene coding for a
Histidine
-rich lipoprotein (Hrl). We recognized a conserved sequence with dyad symmetry within the promoter region of the Fur-regulated genes. Mutagenesis of the predicted Fur operator within the
hrl
promoter abrogated Fur- and metal-dependent expression of a reporter gene. Metal
starvation
still impelled a strong transcriptional response in the
fur
mutant, demonstrating the existence of Fur-independent regulatory pathways controlling metal homeostasis. Finally, analysis of metal accumulation in the wild-type strain and the
fur
mutant by ICP-MS revealed an important role of Fur in nickel acquisition.
...
PMID:Transcriptional response to metal starvation in the emerging pathogen
Mycoplasma genitalium
is mediated by Fur-dependent and -independent regulatory pathways. 3185 7
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