RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Sulfur containing amino acid ABC transporter binding lipoprotein; Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Is also involved in cystathionine, djenkolate, and S- methylcysteine transport; Belongs to the bacterial solute-binding protein 3 family.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Sulfur-containing amino acid ABC transporter binding lipoprotein; Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Is also involved in cystathionine, djenkolate, and S- methylcysteine transport; Belongs to the bacterial solute-binding protein 3 family.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Sulfur-containing amino acid ABC transporter (permease); Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Probably responsible for the translocation of the substrate across the membrane (Probable). Is also involved in cystathionine, djenkolate, and S-methylcysteine transport.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Sulfur-containing amino acid ABC transporter (permease); Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Probably responsible for the translocation of the substrate across the membrane (Probable). Is also involved in cystathionine, djenkolate, and S-methylcysteine transport.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Sulfur-containing amino-acid ABC transporter (ATP-binding protein); Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Responsible for energy coupling to the transport system (Probable). Is also involved in cystathionine, djenkolate, and S- methylcysteine transport; Belongs to the ABC transporter superfamily. L-cystine importer (TC 3.A.1.3.13) family.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Transcriptional regulator (LysR family); Positively regulates the expression of ytmI operon in response to the availability of sulfur sources.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Putative N-acetyltransferase; Evidence 3: Function proposed based on presence of conserved amino acid motif, structural feature or limited homology; Product type pe: putative enzyme; Belongs to the acetyltransferase family.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Putative monooxygenase; Evidence 3: Function proposed based on presence of conserved amino acid motif, structural feature or limited homology; Product type pe: putative enzyme; To bacterial alkanal monooxygenase alpha and beta chains.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Putative redoxin; Evidence 3: Function proposed based on presence of conserved amino acid motif, structural feature or limited homology; Product type pe: putative enzyme; Belongs to the glutaredoxin family.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Putative monooxygenase; May play a role in methionine degradation. May play a role in a sulfur salvage pathway.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Putative aminohydrolase; Evidence 3: Function proposed based on presence of conserved amino acid motif, structural feature or limited homology; Product type pe: putative enzyme; Belongs to the peptidase M20 family.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Putative transporter; Evidence 3: Function proposed based on presence of conserved amino acid motif, structural feature or limited homology; Product type pt: putative transporter.

RNA-binding cryptic riboflavin kinase regulatory protein; May be directly involved in the regulation of the rib genes. C-terminal part of RibR specifically binds to RFN of the rib leader of the riboflavin biosynthetic operon. The RFN element is a sequence within the rib-leader mRNA reported to serve as a receptor for an FMN- dependent riboswitch. Possibly, RibR produces the comodulator FMN through its own N-terminal flavokinase activity. FMN-activated RibR may stabilize the anti-anti terminator structure of RFN mRNA, causing transcription termination of the rib genes in trans.

Conserved hypothetical protein; Evidence 4: Homologs of previously reported genes of unknown function.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

Aliphatic sulfonate ABC transporter (ATP-binding protein); Part of the ABC transporter complex SsuABC involved in aliphatic sulfonates import. Responsible for energy coupling to the transport system (Probable). Is also involved in taurine transport.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

Aliphatic sulfonate ABC transporter (permease); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Probably responsible for the translocation of the substrate across the membrane.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

FMNH2-dependent aliphatic sulfonate monooxygenase; Catalyzes the desulfonation of aliphatic sulfonates.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

Sulfur-containing amino acid ABC transporter (permease); Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Probably responsible for the translocation of the substrate across the membrane (Probable). Is also involved in cystathionine, djenkolate, and S-methylcysteine transport.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

Sulfur-containing amino-acid ABC transporter (ATP-binding protein); Part of the ABC transporter complex TcyJKLMN involved in L- cystine import. Responsible for energy coupling to the transport system (Probable). Is also involved in cystathionine, djenkolate, and S- methylcysteine transport; Belongs to the ABC transporter superfamily. L-cystine importer (TC 3.A.1.3.13) family.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

Transcriptional regulator (LysR family); Positively regulates the expression of ytmI operon in response to the availability of sulfur sources.

Aliphatic sulfonate ABC transporter (binding lipoprotein); Part of a binding-protein-dependent transport system for aliphatic sulfonates. Putative binding protein.

Putative N-acetyltransferase; Evidence 3: Function proposed based on presence of conserved amino acid motif, structural feature or limited homology; Product type pe: putative enzyme; Belongs to the acetyltransferase family.