Rv1524, (MTCY19G5.04c), len: 414 aa. Probable glycosyltransferase, similar to many e.g. P96559|U84349 glycosyltransferase GTFB from Amycolatopsis orientalis (407 aa), FASTA scores: opt: 363, E(): 6.2e-23, (28.8% identity in 430 aa overlap); also high similarity to Rv1526c|MTCY19G5.02 Mycobacterium tuberculosis hypothetical protein (58.7% identity in 416 aa overlap); and AF143772|AF143772_15 glycosyltransferase gtfB from Mycobacterium avium strain 215 (418 aa), FASTA scores: opt: 1801, E(): 0, (65.2% identity in 417 aa overlap).

Phenyloxazoline synthase MbtB (phenyloxazoline synthetase); Involved in the initial steps of the mycobactin biosynthetic pathway. Putatively couples activated salicylic acid with serine or threonine and cyclizes this precursor to the hydroxyphenyloxazoline ring system present in this class of siderophores. Essential for growth in macrophages; Belongs to the ATP-dependent AMP-binding enzyme family. MbtB subfamily.

Rv1526c, (MTCY19G5.02), len: 426 aa. Probable glycosyltransferase, highly similar to G467196 Protein L518_C2_147 from Mycobacterium leprae (421 aa), FASTA scores, opt: 1497, E(): 0, (55.0% identity in 424 aa overlap); similar to G452504 rhamnosyltransferase (24.7% identity in 433 aa overlap); and P96565|U84350 glycosyltransferase GTFE from Amycolatopsis orientalis (408 aa), E(): 3.4e-24, (28.4% identity in 429 aa overlap), also high similarity to Rv1524|MTCY19G5.04c (58.7 % identity in 416 aa overlap).

Phenyloxazoline synthase MbtB (phenyloxazoline synthetase); Involved in the initial steps of the mycobactin biosynthetic pathway. Putatively couples activated salicylic acid with serine or threonine and cyclizes this precursor to the hydroxyphenyloxazoline ring system present in this class of siderophores. Essential for growth in macrophages; Belongs to the ATP-dependent AMP-binding enzyme family. MbtB subfamily.

Gamma-glutamyltranspeptidase / glutathione hydrolase; Rv0773c, (MTCY369.18), len: 512 aa. Probable ggtA,bifunctional acylase including cephalosporin acylase, and gamma-glutamyl transpeptidase; highly similar to others e.g. NP_295247.1|NC_001263 cephalosporin acylase from Deinococcus radiodurans (535 aa); NP_248854.1|NC_002516 probable gamma-glutamyltranspeptidase from Pseudomonas aeruginosa (538 aa); P15557|PAC1_PSES3 acylase ACY 1 [includes: cephalosporin acylase (GL-7ACA acylase); gamma-glutamyltranspeptidase (GGT)] from Pseudomonas sp. strain SE83 (558 aa), FASTA scores: opt: 784, E [...]

Glutamate--cysteine ligase EgtA; Catalyzes the synthesis of gamma-glutamylcysteine (gamma-GC). This compound is used as substrate for the biosynthesis of the low-molecular thiol compound ergothioneine (By similarity).

Glutamate--cysteine ligase EgtA; Catalyzes the synthesis of gamma-glutamylcysteine (gamma-GC). This compound is used as substrate for the biosynthesis of the low-molecular thiol compound ergothioneine (By similarity).

Gamma-glutamyltranspeptidase / glutathione hydrolase; Rv0773c, (MTCY369.18), len: 512 aa. Probable ggtA,bifunctional acylase including cephalosporin acylase, and gamma-glutamyl transpeptidase; highly similar to others e.g. NP_295247.1|NC_001263 cephalosporin acylase from Deinococcus radiodurans (535 aa); NP_248854.1|NC_002516 probable gamma-glutamyltranspeptidase from Pseudomonas aeruginosa (538 aa); P15557|PAC1_PSES3 acylase ACY 1 [includes: cephalosporin acylase (GL-7ACA acylase); gamma-glutamyltranspeptidase (GGT)] from Pseudomonas sp. strain SE83 (558 aa), FASTA scores: opt: 784, E [...]

Iron-dependent repressor and activator IdeR; Metal-dependent DNA-binding protein that controls transcription of many genes involved in iron metabolism. Acts as a repressor of siderophore biosynthesis and as a positive modulator of iron storage. Also regulates expression of transporters, proteins involved in siderophore synthesis, iron storage and transcriptional regulators.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Iron-dependent repressor and activator IdeR; Metal-dependent DNA-binding protein that controls transcription of many genes involved in iron metabolism. Acts as a repressor of siderophore biosynthesis and as a positive modulator of iron storage. Also regulates expression of transporters, proteins involved in siderophore synthesis, iron storage and transcriptional regulators.

Phenyloxazoline synthase MbtB (phenyloxazoline synthetase); Involved in the initial steps of the mycobactin biosynthetic pathway. Putatively couples activated salicylic acid with serine or threonine and cyclizes this precursor to the hydroxyphenyloxazoline ring system present in this class of siderophores. Essential for growth in macrophages; Belongs to the ATP-dependent AMP-binding enzyme family. MbtB subfamily.

Iron-dependent repressor and activator IdeR; Metal-dependent DNA-binding protein that controls transcription of many genes involved in iron metabolism. Acts as a repressor of siderophore biosynthesis and as a positive modulator of iron storage. Also regulates expression of transporters, proteins involved in siderophore synthesis, iron storage and transcriptional regulators.

Lysine N-acetyltransferase MbtK; Acyltransferase required for the direct transfer of medium- to long-chain fatty acyl moieties from a carrier protein (MbtL) on to the epsilon-amino group of lysine residue in the mycobactin core.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Iron-dependent repressor and activator IdeR; Metal-dependent DNA-binding protein that controls transcription of many genes involved in iron metabolism. Acts as a repressor of siderophore biosynthesis and as a positive modulator of iron storage. Also regulates expression of transporters, proteins involved in siderophore synthesis, iron storage and transcriptional regulators.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Phenyloxazoline synthase MbtB (phenyloxazoline synthetase); Involved in the initial steps of the mycobactin biosynthetic pathway. Putatively couples activated salicylic acid with serine or threonine and cyclizes this precursor to the hydroxyphenyloxazoline ring system present in this class of siderophores. Essential for growth in macrophages; Belongs to the ATP-dependent AMP-binding enzyme family. MbtB subfamily.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Rv2380c, (MTCY22H8.05), len: 1682 aa. MbtE, peptide synthetase (see citations below), similar in part to several synthases e.g. O07944|SNBDE pristinamycin I synthase 3 and 4 from Streptomyces pristinaespiralis (4848 aa), FASTA scores: opt: 2635, E(): 1.9e-146, (36.8% identity in 1657 aa overlap); O05647|SNBDE virginiamycin S synthetase (fragment) from Streptomyces virginiae (1997 aa) FASTA scores: opt: 2580, E(): 1.6e-143, (40.65% identity in 1163 aa overlap); Q9R9I2|DHBF protein involved in siderophore production from Bacillus subtilis (2378 aa),FASTA scores: opt: 2388, E(): 3.6e-132, [...]

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Rv2379c, (MTCY27.01), len: 1461 aa. MbtF, peptide synthetase (see citations below), similar in part to several synthases e.g. O52820|PCZA363.4 protein from Amycolatopsis orientalis (4077 aa), FASTA scores: opt: 1873, E(): 1.1e-99, (35.55% identity in 1522 aa overlap); O07944|SNBDE pristinamycin I synthase 3 and 4 from Streptomyces pristinaespiralis (4848 aa), FASTA scores: opt: 1817, E(): 2.1e-96, (33.65% identity in 1463 aa overlap); O52821 protein similar to peptide synthetase from Amycolatopsis orientalis (1860 aa) FASTA scores: opt: 1705,E(): 2.9e-90, (34.75% identity in 1344 aa ov [...]

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Lysine-N-oxygenase MbtG (L-lysine 6-monooxygenase) (lysine N6-hydroxylase); Flavoprotein monooxygenase required for N-hydroxylation of the two acylated lysine residues during mycobactin assembly, thus producing the hydroxamate groups necessary for iron sequestration. Is also able, but less efficiently, to hydroxylate L-lysine (non acylated) in vitro.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Putative conserved protein MbtH; Could be involved in mycobactin synthesis.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Isochorismate synthase MbtI; Involved in the incorporation of salicylate into the virulence-conferring salicylate-based siderophore mycobactin. Catalyzes the initial conversion of chorismate to yield the intermediate isochorismate (isochorismate synthase activity), and the subsequent elimination of the enolpyruvyl side chain to give salicylate (isochorismate pyruvate-lyase activity). In the absence of magnesium, MbtI displays a chorismate mutase activity and converts chorismate to prephenate.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Lysine N-acetyltransferase MbtK; Acyltransferase required for the direct transfer of medium- to long-chain fatty acyl moieties from a carrier protein (MbtL) on to the epsilon-amino group of lysine residue in the mycobactin core.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Acyl-CoA dehydrogenase MbtN; Catalyzes the dehydrogenation at the alpha-beta position of ACP-bound acyl chains. This results in the introduction of a double bond in the lipidic chain, which is further transferred to the epsilon- amino group of lysine residue in the mycobactin core by MbtK. Belongs to the acyl-CoA dehydrogenase family.

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Rv0101, (MTCY251.20), len: 2512 aa. Probable nrp,peptide synthetase, similar to others e.g. AAD44234.1|AF143772_40|PstB peptide synthetase from Mycobacterium avium (2552 aa); 7476034|S77657 cyclic peptide synthetase from Mycobacterium leprae (1401 aa),FASTA scores: opt: 4268, E(): 0, (65.7% identity in 1091 aa overlap); part of CAB55600.1|AJ238027 peptide synthetase from Mycobacterium smegmatis (5990). Also similar to e.g. AAD56240.1|AF184977_1|AF184977 DhbF protein from Bacillus subtilis (2378 aa); SRF1_BACSU|P27206 surfactin synthetase subunit 1 (3587 aa), FASTA scores: opt: 1708, E( [...]

Bifunctional enzyme MbtA: salicyl-AMP ligase (SAL-AMP ligase) + salicyl-S-ArCP synthetase; Involved in the initial steps of the mycobactin biosynthetic pathway. Catalyzes the salicylation of the aryl carrier protein (ArCP) domain of MbtB through a two-step reaction. The first step is the ATP- dependent adenylation of salicylate to generate a salicyl-AMP intermediate. The second step is the transfer of this activated salicylate to MbtB to form a salicyl-ArCP domain thioester.

Rv2794c, (MTV002.59c), len: 227 aa. PptT,phosphopantetheinyl transferase, equivalent to Q9Z5I5|ML1547|MLCB596.23 putative iron-chelating complex subunit from Mycobacterium leprae (227 aa), FASTA scores: opt: 1248, E(): 9.1e-77, (79.75% identity in 227 aa overlap). Also highly similar to various proteins e.g. Q9F0Q6|PPTA phosphopantetheinyl transferase from Streptomyces verticillus (246 aa), FASTA scores: opt: 692,E(): 2.8e-39, (46.65% identity in 225 aa overlap); O88029|SC5A7.23 hypothetical 24.5 KDA protein from Streptomyces coelicolor (226 aa), FASTA scores: opt: 679,E(): 2e-38, (46. [...]

Phenyloxazoline synthase MbtB (phenyloxazoline synthetase); Involved in the initial steps of the mycobactin biosynthetic pathway. Putatively couples activated salicylic acid with serine or threonine and cyclizes this precursor to the hydroxyphenyloxazoline ring system present in this class of siderophores. Essential for growth in macrophages; Belongs to the ATP-dependent AMP-binding enzyme family. MbtB subfamily.

Rv1524, (MTCY19G5.04c), len: 414 aa. Probable glycosyltransferase, similar to many e.g. P96559|U84349 glycosyltransferase GTFB from Amycolatopsis orientalis (407 aa), FASTA scores: opt: 363, E(): 6.2e-23, (28.8% identity in 430 aa overlap); also high similarity to Rv1526c|MTCY19G5.02 Mycobacterium tuberculosis hypothetical protein (58.7% identity in 416 aa overlap); and AF143772|AF143772_15 glycosyltransferase gtfB from Mycobacterium avium strain 215 (418 aa), FASTA scores: opt: 1801, E(): 0, (65.2% identity in 417 aa overlap).

Phenyloxazoline synthase MbtB (phenyloxazoline synthetase); Involved in the initial steps of the mycobactin biosynthetic pathway. Putatively couples activated salicylic acid with serine or threonine and cyclizes this precursor to the hydroxyphenyloxazoline ring system present in this class of siderophores. Essential for growth in macrophages; Belongs to the ATP-dependent AMP-binding enzyme family. MbtB subfamily.

Rv1526c, (MTCY19G5.02), len: 426 aa. Probable glycosyltransferase, highly similar to G467196 Protein L518_C2_147 from Mycobacterium leprae (421 aa), FASTA scores, opt: 1497, E(): 0, (55.0% identity in 424 aa overlap); similar to G452504 rhamnosyltransferase (24.7% identity in 433 aa overlap); and P96565|U84350 glycosyltransferase GTFE from Amycolatopsis orientalis (408 aa), E(): 3.4e-24, (28.4% identity in 429 aa overlap), also high similarity to Rv1524|MTCY19G5.04c (58.7 % identity in 416 aa overlap).