scholarly journals ArgR and AhrC Are Both Required for Regulation of Arginine Metabolism in Lactococcus lactis

2004 ◽  
Vol 186 (4) ◽  
pp. 1147-1157 ◽  
Author(s):  
Rasmus Larsen ◽  
Girbe Buist ◽  
Oscar P. Kuipers ◽  
Jan Kok
Keyword(s):  
Lactococcus Lactis ◽  
Double Mutant ◽  
Protein Complexes ◽  
Dna Binding Proteins ◽  
Unique Property ◽  
Deletion Mutants ◽  
Biosynthesis Pathway ◽  
Arginine Metabolism ◽  
Arginine Biosynthesis ◽  
Arginine Catabolism

ABSTRACT The DNA binding proteins ArgR and AhrC are essential for regulation of arginine metabolism in Escherichia coli and Bacillus subtilis, respectively. A unique property of these regulators is that they form hexameric protein complexes, mediating repression of arginine biosynthetic pathways as well as activation of arginine catabolic pathways. The gltS-argE operon of Lactococcus lactis encodes a putative glutamate or arginine transport protein and acetylornithine deacetylase, which catalyzes an important step in the arginine biosynthesis pathway. By random integration knockout screening we found that derepression mutants had ISS1 integrations in, among others, argR and ahrC. Single as well as double regulator deletion mutants were constructed from Lactococcus lactis subsp. cremoris MG1363. The three arginine biosynthetic operons argCJDBF, argGH, and gltS-argE were shown to be repressed by the products of argR and ahrC. Furthermore, the arginine catabolic arcABD1C1C2TD2 operon was activated by the product of ahrC but not by that of argR. Expression from the promoter of the argCJDBF operon reached similar levels in the single mutants and in the double mutant, suggesting that the regulators are interdependent and not able to complement each other. At the same time they also appear to have different functions, as only AhrC is involved in activation of arginine catabolism. This is the first study where two homologous arginine regulators are shown to be involved in arginine regulation in a prokaryote, representing an unusual mechanism of regulation.

scholarly journals Characterization of the Role of para-Aminobenzoic Acid Biosynthesis in Folate Production by Lactococcus lactis

2007 ◽  
Vol 73 (8) ◽  
pp. 2673-2681 ◽  
Author(s):  
Arno Wegkamp ◽  
Wietske van Oorschot ◽  
Willem M. de Vos ◽  
Eddy J. Smid
Keyword(s):  
Gene Cluster ◽  
Lactococcus Lactis ◽  
Gene Clusters ◽  
Defined Medium ◽  
Biosynthesis Pathway ◽  
Chemically Defined Medium ◽  
Aminobenzoic Acid ◽  
Biosynthesis Gene Cluster ◽  
Gene Coding ◽  
Aba Biosynthesis

ABSTRACT The pab genes for para-aminobenzoic acid (pABA) biosynthesis in Lactococcus lactis were identified and characterized. In L. lactis NZ9000, only two of the three genes needed for pABA production were initially found. No gene coding for 4-amino-4-deoxychorismate lyase (pabC) was initially annotated, but detailed analysis revealed that pabC was fused with the 3′ end of the gene coding for chorismate synthetase component II (pabB). Therefore, we hypothesize that all three enzyme activities needed for pABA production are present in L. lactis, allowing for the production of pABA. Indeed, the overexpression of the pABA gene cluster in L. lactis resulted in elevated pABA pools, demonstrating that the genes are involved in the biosynthesis of pABA. Moreover, a pABA knockout (KO) strain lacking pabA and pabB C was constructed and shown to be unable to produce folate when cultivated in the absence of pABA. This KO strain was unable to grow in chemically defined medium lacking glycine, serine, nucleobases/nucleosides, and pABA. The addition of the purine guanine, adenine, xanthine, or inosine restored growth but not the production of folate. This suggests that, in the presence of purines, folate is not essential for the growth of L. lactis. It also shows that folate is not strictly required for the pyrimidine biosynthesis pathway. L. lactis strain NZ7024, overexpressing both the folate and pABA gene clusters, was found to produce 2.7 mg of folate/liter per optical density unit at 600 nm when the strain was grown on chemically defined medium without pABA. This is in sharp contrast to L. lactis strains overexpressing only one of the two gene clusters. Therefore, we conclude that elevated folate levels can be obtained only by the overexpression of folate combined with the overexpression of the pABA biosynthesis gene cluster, suggesting the need for a balanced carbon flux through the folate and pABA biosynthesis pathway in the wild-type strain.

scholarly journals Arginine-deprivation–induced oxidative damage sterilizes Mycobacterium tuberculosis

2018 ◽  
Vol 115 (39) ◽  
pp. 9779-9784 ◽  
Author(s):  
Sangeeta Tiwari ◽  
Andries J. van Tonder ◽  
Catherine Vilchèze ◽  
Vitor Mendes ◽  
Sherine E. Thomas ◽  
...  
Keyword(s):  
Oxidative Stress ◽  
Dna Damage ◽  
Mycobacterium Tuberculosis ◽  
De Novo ◽  
Target Space ◽  
Biosynthesis Pathway ◽  
Arginine Biosynthesis ◽  
Arginine Deprivation

Reactive oxygen species (ROS)-mediated oxidative stress and DNA damage have recently been recognized as contributing to the efficacy of most bactericidal antibiotics, irrespective of their primary macromolecular targets. Inhibitors of targets involved in both combating oxidative stress as well as being required for in vivo survival may exhibit powerful synergistic action. This study demonstrates that the de novo arginine biosynthetic pathway in Mycobacterium tuberculosis (Mtb) is up-regulated in the early response to the oxidative stress-elevating agent isoniazid or vitamin C. Arginine deprivation rapidly sterilizes the Mtb de novo arginine biosynthesis pathway mutants ΔargB and ΔargF without the emergence of suppressor mutants in vitro as well as in vivo. Transcriptomic and flow cytometry studies of arginine-deprived Mtb have indicated accumulation of ROS and extensive DNA damage. Metabolomics studies following arginine deprivation have revealed that these cells experienced depletion of antioxidant thiols and accumulation of the upstream metabolite substrate of ArgB or ArgF enzymes. ΔargB and ΔargF were unable to scavenge host arginine and were quickly cleared from both immunocompetent and immunocompromised mice. In summary, our investigation revealed in vivo essentiality of the de novo arginine biosynthesis pathway for Mtb and a promising drug target space for combating tuberculosis.

scholarly journals CodY-Regulated Aminotransferases AraT and BcaT Play a Major Role in the Growth of Lactococcus lactis in Milk by Regulating the Intracellular Pool of Amino Acids

2003 ◽  
Vol 69 (6) ◽  
pp. 3061-3068 ◽  
Author(s):  
Emilie Chambellon ◽  
Mireille Yvon
Keyword(s):  
Amino Acids ◽  
Growth Inhibition ◽  
Lactococcus Lactis ◽  
Double Mutant ◽  
Wild Type Strain ◽  
Aromatic Amino Acids ◽  
Nitrogen Sources ◽  
Nutritional Factors ◽  
Keto Acids ◽  
Branched Chain

ABSTRACT Aminotransferases, which catalyze the last step of biosynthesis of most amino acids and the first step of their catabolism, may be involved in the growth of Lactococcus lactis in milk. Previously, we isolated two aminotransferases from L. lactis, AraT and BcaT, which are responsible for the transamination of aromatic amino acids, branched-chain amino acids, and methionine. In this study, we demonstrated that double inactivation of AraT and BcaT strongly reduced the growth of L. lactis in milk. Supplementation of milk with amino acids and keto acids that are substrates of both aminotransferases did not improve the growth of the double mutant. On the contrary, supplementation of milk with isoleucine or a dipeptide containing isoleucine almost totally inhibited the growth of the double mutant, while it did not affect or only slightly affected the growth of the wild-type strain. These results suggest that AraT and BcaT play a major role in the growth of L. lactis in milk by degrading the intracellular excess isoleucine, which is responsible for the growth inhibition. The growth inhibition by isoleucine is likely to be due to CodY repression of the proteolytic system, which is necessary for maximal growth of L. lactis in milk, since the growth of the CodY mutant was not affected by addition of isoleucine to milk. Moreover, we demonstrated that AraT and BcaT are part of the CodY regulon and therefore are regulated by nutritional factors, such as the carbohydrate and nitrogen sources.

A Method for Isolation of DNA-Binding Proteins Based on Solubility of DNA-Protein Complexes

2012 ◽  
Vol 19 (10) ◽  
pp. 1071-1075
Author(s):  
Hua Yang ◽  
Huang Li ◽  
Li-qun Rao ◽  
Gui-you Long ◽  
Guo-ping Peng ◽  
...  
Keyword(s):  
Dna Binding ◽  
Binding Proteins ◽  
Protein Complexes ◽  
Dna Binding Proteins

scholarly journals Utilization of Host Iron Sources by Corynebacterium diphtheriae: Multiple Hemoglobin-Binding Proteins Are Essential for the Use of Iron from the Hemoglobin-Haptoglobin Complex

2014 ◽  
Vol 197 (3) ◽  
pp. 553-562 ◽  
Author(s):  
Courtni E. Allen ◽  
Michael P. Schmitt
Keyword(s):  
Double Mutant ◽  
Biological Function ◽  
Corynebacterium Diphtheriae ◽  
Enzyme Linked Immunosorbent Assay ◽  
Deletion Mutants ◽  
Wild Type ◽  
Content Type ◽  
Iron Source ◽  
Hemoglobin Binding ◽  
Single Deletion

The use of hemin iron byCorynebacterium diphtheriaerequires the DtxR- and iron-regulated ABC hemin transporter HmuTUV and the secreted Hb-binding protein HtaA. We recently described two surface anchored proteins, ChtA and ChtC, which also bind hemin and Hb. ChtA and ChtC share structural similarities to HtaA; however, a function for ChtA and ChtC was not determined. In this study, we identified additional host iron sources that are utilized byC. diphtheriae. We show that severalC. diphtheriaestrains use the hemoglobin-haptoglobin (Hb-Hp) complex as an iron source. We report that anhtaAdeletion mutant ofC. diphtheriaestrain 1737 is unable to use the Hb-Hp complex as an iron source, and we further demonstrate that achtA-chtCdouble mutant is also unable to use Hb-Hp iron. Single-deletion mutants ofchtAorchtCuse Hb-Hp iron in a manner similar to that of the wild type. These findings suggest that both HtaA and either ChtA or ChtC are essential for the use of Hb-Hp iron. Enzyme-linked immunosorbent assay (ELISA) studies show that HtaA binds the Hb-Hp complex, and the substitution of a conserved tyrosine (Y361) for alanine in HtaA results in significantly reduced binding.C. diphtheriaewas also able to use human serum albumin (HSA) and myoglobin (Mb) but not hemopexin as iron sources. These studies identify a biological function for the ChtA and ChtC proteins and demonstrate that the use of the Hb-Hp complex as an iron source byC. diphtheriaerequires multiple iron-regulated surface components.

scholarly journals Comparative analysis of Lysine and Arginine biosynthesis pathway in Deinococcus genomes

2021 ◽  
Author(s):  
Sankar Mahesh ◽  
Deepa Sethi ◽  
Richa Priyadarshini ◽  
Ragothaman M Yennamalli
Keyword(s):  
Cell Envelope ◽  
Glutamate Synthase ◽  
Optimal Level ◽  
Lysine Biosynthesis ◽  
Divergent Evolution ◽  
Structural Level ◽  
Biosynthesis Pathway ◽  
Arginine Biosynthesis ◽  
Structural Variations ◽  
Lysine Deacetylase

The members of the Deinococcaceae family have the ability to survive extreme environmental conditions. Deinococcus species have a complex cell envelope composed of L-ornithine containing peptidoglycan. Anabolism of L-ornithine is intrinsically linked to L-lysine and L-arginine biosynthetic pathways. To understand these two pathways, we analyzed the L-lysine and L-arginine pathways using 23 Deinococcus genomes, including D. indicus. We used BLAST-P based ortholog identification using D. radiodurans genes as the query. We identified some BLAST-P hits that shared the same functional annotation. We analyzed three (class I aminotransferase, acetyl-lysine deacetylase, and acetyl glutamate/acetyl aminoadipate kinase) from L-lysine biosynthesis pathway and three (bifunctional ornithine acetyltransferase or N-acetyl glutamate synthase protein, nitric oxide synthase-like protein, and Acetyl-lysine deacetylase) from L-arginine biosynthesis pathway. Two proteins showed certain structural variations. Specifically, [LysW]-lysine hydrolase protein sequence and structure level changes indicated changes in oligomeric conformation, which could likely be a result of divergent evolution. And, bifunctional ornithine acetyltransferase or N-acetyl glutamate synthase had its active site pocket positions shifted at the structural level and we hypothesize that it may not perform at the optimal level. Thus, we were able to compare and contrast different Deinococcus species indicating some genes occurring because of divergent evolution.

scholarly journals Information Flow in Planar Polarity

2017 ◽  
Author(s):  
Katherine H Fisher ◽  
David Strutt ◽  
Alexander G Fletcher
Keyword(s):  
Information Flow ◽  
Double Mutant ◽  
Protein Complexes ◽  
Individual Cell ◽  
Cell Signalling ◽  
Computational Modelling ◽  
Planar Polarity ◽  
Signalling Models ◽  
Scale Properties ◽  
Insight Into

SummaryIn developing tissues, sheets of cells become planar polarised, enabling coordination of cell behaviours. It has been suggested that ‘signalling’ of polarity information between cells may occur either bidirectionally or monodirectionally between the molecules Frizzled (Fz) and Van Gogh (Vang). Using computational modelling we find that both bidirectional and monodirectional signalling models reproduce known non-autonomous phenotypes derived from patches of mutant tissue of key molecules, but predict different phenotypes from double mutant tissue, which have previously given conflicting experimental results. Consequently, we re-examine experimental phenotypes in the Drosophila wing, concluding that signalling is most likely bidirectional. Our modelling suggests that bidirectional signalling can be mediated either indirectly via bidirectional feedbacks between asymmetric intercellular protein complexes, or directly via different affinities for protein binding in intercellular complexes, suggesting future avenues for investigation. Our findings offer insight into mechanisms of juxtacrine cell signalling and how tissue-scale properties emerge from individual cell behaviours.

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