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| | AQG82547.1 | Amidohydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (405 aa) |
| | gatA | aspartyl/glutamyl-tRNA amidotransferase subunit A; Allows the formation of correctly charged Gln-tRNA(Gln) through the transamidation of misacylated Glu-tRNA(Gln) in organisms which lack glutaminyl-tRNA synthetase. The reaction takes place in the presence of glutamine and ATP through an activated gamma-phospho-Glu- tRNA(Gln). (482 aa) |
| | AQG82200.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1056 aa) |
| | AQG82186.1 | ATPase; Derived by automated computational analysis using gene prediction method: Protein Homology. (403 aa) |
| | AQG82688.1 | acetoacetyl-CoA synthetase; AcsA; in Sinorhizobium meliloti this enzyme is required for acetoacetate activation; similar to acetyl-CoA synthase; Derived by automated computational analysis using gene prediction method: Protein Homology. (656 aa) |
| | prfB | Peptide chain release factor 2; Peptide chain release factor 2 directs the termination of translation in response to the peptide chain termination codons UGA and UAA. (307 aa) |
| | AQG82682.1 | Peptidase S46; Catalyzes the removal of dipeptides from the N-terminus of oligopeptides. (704 aa) |
| | AQG82124.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1035 aa) |
| | AQG82080.1 | Quinol:cytochrome C oxidoreductase; Derived by automated computational analysis using gene prediction method: Protein Homology. (436 aa) |
| | AQG82074.1 | 30S ribosomal protein S1; Binds mRNA; thus facilitating recognition of the initiation point. It is needed to translate mRNA with a short Shine-Dalgarno (SD) purine-rich sequence. (593 aa) |
| | smpB | SsrA-binding protein; Required for rescue of stalled ribosomes mediated by trans- translation. Binds to transfer-messenger RNA (tmRNA), required for stable association of tmRNA with ribosomes. tmRNA and SmpB together mimic tRNA shape, replacing the anticodon stem-loop with SmpB. tmRNA is encoded by the ssrA gene; the 2 termini fold to resemble tRNA(Ala) and it encodes a 'tag peptide', a short internal open reading frame. During trans-translation Ala-aminoacylated tmRNA acts like a tRNA, entering the A-site of stalled ribosomes, displacing the stalled mRNA. The ribosome then switches to [...] (153 aa) |
| | rpmG | 50S ribosomal protein L33; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL33 family. (61 aa) |
| | rplQ | 50S ribosomal protein L17; Derived by automated computational analysis using gene prediction method: Protein Homology. (203 aa) |
| | rpsD | 30S ribosomal protein S4; One of the primary rRNA binding proteins, it binds directly to 16S rRNA where it nucleates assembly of the body of the 30S subunit. (201 aa) |
| | rpsK | 30S ribosomal protein S11; Located on the platform of the 30S subunit, it bridges several disparate RNA helices of the 16S rRNA. Forms part of the Shine- Dalgarno cleft in the 70S ribosome; Belongs to the universal ribosomal protein uS11 family. (131 aa) |
| | rpsM | 30S ribosomal protein S13; Located at the top of the head of the 30S subunit, it contacts several helices of the 16S rRNA. In the 70S ribosome it contacts the 23S rRNA (bridge B1a) and protein L5 of the 50S subunit (bridge B1b), connecting the 2 subunits; these bridges are implicated in subunit movement. Contacts the tRNAs in the A and P-sites. Belongs to the universal ribosomal protein uS13 family. (125 aa) |
| | rpmJ | 50S ribosomal protein L36; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL36 family. (38 aa) |
| | infA | Translation initiation factor IF-1; One of the essential components for the initiation of protein synthesis. Stabilizes the binding of IF-2 and IF-3 on the 30S subunit to which N-formylmethionyl-tRNA(fMet) subsequently binds. Helps modulate mRNA selection, yielding the 30S pre-initiation complex (PIC). Upon addition of the 50S ribosomal subunit IF-1, IF-2 and IF-3 are released leaving the mature 70S translation initiation complex. (72 aa) |
| | rplO | 50S ribosomal protein L15; Binds to the 23S rRNA; Belongs to the universal ribosomal protein uL15 family. (158 aa) |
| | rpmD | 50S ribosomal protein L30; Derived by automated computational analysis using gene prediction method: Protein Homology. (59 aa) |
| | rpsE | 30S ribosomal protein S5; Located at the back of the 30S subunit body where it stabilizes the conformation of the head with respect to the body. Belongs to the universal ribosomal protein uS5 family. (172 aa) |
| | rplR | 50S ribosomal protein L18; This is one of the proteins that binds and probably mediates the attachment of the 5S RNA into the large ribosomal subunit, where it forms part of the central protuberance. (117 aa) |
| | rplF | 50S ribosomal protein L6; This protein binds to the 23S rRNA, and is important in its secondary structure. It is located near the subunit interface in the base of the L7/L12 stalk, and near the tRNA binding site of the peptidyltransferase center; Belongs to the universal ribosomal protein uL6 family. (185 aa) |
| | rpsH | 30S ribosomal protein S8; One of the primary rRNA binding proteins, it binds directly to 16S rRNA central domain where it helps coordinate assembly of the platform of the 30S subunit; Belongs to the universal ribosomal protein uS8 family. (132 aa) |
| | rpsN | 30S ribosomal protein S14; Binds 16S rRNA, required for the assembly of 30S particles and may also be responsible for determining the conformation of the 16S rRNA at the A site; Belongs to the universal ribosomal protein uS14 family. (89 aa) |
| | rplE | 50S ribosomal protein L5; This is 1 of the proteins that binds and probably mediates the attachment of the 5S RNA into the large ribosomal subunit, where it forms part of the central protuberance. In the 70S ribosome it contacts protein S13 of the 30S subunit (bridge B1b), connecting the 2 subunits; this bridge is implicated in subunit movement. Contacts the P site tRNA; the 5S rRNA and some of its associated proteins might help stabilize positioning of ribosome-bound tRNAs. (184 aa) |
| | rplX | 50S ribosomal protein L24; One of the proteins that surrounds the polypeptide exit tunnel on the outside of the subunit. (119 aa) |
| | rplN | 50S ribosomal protein L14; Binds to 23S rRNA. Forms part of two intersubunit bridges in the 70S ribosome; Belongs to the universal ribosomal protein uL14 family. (122 aa) |
| | rpsQ | 30S ribosomal protein S17; One of the primary rRNA binding proteins, it binds specifically to the 5'-end of 16S ribosomal RNA. (84 aa) |
| | rpmC | 50S ribosomal protein L29; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the universal ribosomal protein uL29 family. (64 aa) |
| | rplP | 50S ribosomal protein L16; Binds 23S rRNA and is also seen to make contacts with the A and possibly P site tRNAs; Belongs to the universal ribosomal protein uL16 family. (143 aa) |
| | rpsC | 30S ribosomal protein S3; Binds the lower part of the 30S subunit head. Binds mRNA in the 70S ribosome, positioning it for translation; Belongs to the universal ribosomal protein uS3 family. (294 aa) |
| | rplV | 50S ribosomal protein L22; The globular domain of the protein is located near the polypeptide exit tunnel on the outside of the subunit, while an extended beta-hairpin is found that lines the wall of the exit tunnel in the center of the 70S ribosome. (128 aa) |
| | rpsS | 30S ribosomal protein S19; Protein S19 forms a complex with S13 that binds strongly to the 16S ribosomal RNA. (92 aa) |
| | rplB | 50S ribosomal protein L2; One of the primary rRNA binding proteins. Required for association of the 30S and 50S subunits to form the 70S ribosome, for tRNA binding and peptide bond formation. It has been suggested to have peptidyltransferase activity; this is somewhat controversial. Makes several contacts with the 16S rRNA in the 70S ribosome. Belongs to the universal ribosomal protein uL2 family. (274 aa) |
| | rplW | 50S ribosomal protein L23; One of the early assembly proteins it binds 23S rRNA. One of the proteins that surrounds the polypeptide exit tunnel on the outside of the ribosome. Forms the main docking site for trigger factor binding to the ribosome; Belongs to the universal ribosomal protein uL23 family. (95 aa) |
| | rplD | 50S ribosomal protein L3; Forms part of the polypeptide exit tunnel. (209 aa) |
| | AQG82668.1 | Hydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (447 aa) |
| | AQG81936.1 | Glutathionylspermidine synthase; Derived by automated computational analysis using gene prediction method: Protein Homology. (389 aa) |
| | gltX | glutamate--tRNA ligase; Catalyzes the attachment of glutamate to tRNA(Glu) in a two- step reaction: glutamate is first activated by ATP to form Glu-AMP and then transferred to the acceptor end of tRNA(Glu); Belongs to the class-I aminoacyl-tRNA synthetase family. Glutamate--tRNA ligase type 1 subfamily. (513 aa) |
| | AQG81845.1 | Adenosylmethionine-8-amino-7-oxononanoate aminotransferase; Catalyzes the formation of S-adenosyl-4-methylthionine-2-oxobutanoate and 7,8-diaminononanoate from S-adenosyl-L-methionine and 8-amino-7-oxononanoate; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the class-III pyridoxal-phosphate-dependent aminotransferase family. (429 aa) |
| | accD | Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta; Component of the acetyl coenzyme A carboxylase (ACC) complex. Biotin carboxylase (BC) catalyzes the carboxylation of biotin on its carrier protein (BCCP) and then the CO(2) group is transferred by the transcarboxylase to acetyl-CoA to form malonyl-CoA; Belongs to the AccD/PCCB family. (280 aa) |
| | AQG81801.1 | Dihydroneopterin aldolase; Catalyzes the conversion of 7,8-dihydroneopterin to 6- hydroxymethyl-7,8-dihydropterin. (116 aa) |
| | fusA | Elongation factor G; Catalyzes the GTP-dependent ribosomal translocation step during translation elongation. During this step, the ribosome changes from the pre-translocational (PRE) to the post-translocational (POST) state as the newly formed A-site-bound peptidyl-tRNA and P-site-bound deacylated tRNA move to the P and E sites, respectively. Catalyzes the coordinated movement of the two tRNA molecules, the mRNA and conformational changes in the ribosome; Belongs to the TRAFAC class translation factor GTPase superfamily. Classic translation factor GTPase family. EF-G/EF-2 subfamily. (706 aa) |
| | efp | Elongation factor P; Involved in peptide bond synthesis. Stimulates efficient translation and peptide-bond synthesis on native or reconstituted 70S ribosomes in vitro. Probably functions indirectly by altering the affinity of the ribosome for aminoacyl-tRNA, thus increasing their reactivity as acceptors for peptidyl transferase. (187 aa) |
| | rpmF | 50S ribosomal protein L32; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL32 family. (64 aa) |
| | AQG81724.1 | serine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology. (423 aa) |
| | rpsG | 30S ribosomal protein S7; One of the primary rRNA binding proteins, it binds directly to 16S rRNA where it nucleates assembly of the head domain of the 30S subunit. Is located at the subunit interface close to the decoding center, probably blocks exit of the E-site tRNA; Belongs to the universal ribosomal protein uS7 family. (155 aa) |
| | rpsL | 30S ribosomal protein S12; Interacts with and stabilizes bases of the 16S rRNA that are involved in tRNA selection in the A site and with the mRNA backbone. Located at the interface of the 30S and 50S subunits, it traverses the body of the 30S subunit contacting proteins on the other side and probably holding the rRNA structure together. The combined cluster of proteins S8, S12 and S17 appears to hold together the shoulder and platform of the 30S subunit. (141 aa) |
| | rplL | 50S ribosomal protein L7/L12; Forms part of the ribosomal stalk which helps the ribosome interact with GTP-bound translation factors. Is thus essential for accurate translation; Belongs to the bacterial ribosomal protein bL12 family. (128 aa) |
| | rplJ | 50S ribosomal protein L10; Forms part of the ribosomal stalk, playing a central role in the interaction of the ribosome with GTP-bound translation factors. Belongs to the universal ribosomal protein uL10 family. (176 aa) |
| | rplA | 50S ribosomal protein L1; Binds directly to 23S rRNA. The L1 stalk is quite mobile in the ribosome, and is involved in E site tRNA release. (232 aa) |
| | rplK | 50S ribosomal protein L11; Forms part of the ribosomal stalk which helps the ribosome interact with GTP-bound translation factors. (147 aa) |
| | tuf | Elongation factor Tu; This protein promotes the GTP-dependent binding of aminoacyl- tRNA to the A-site of ribosomes during protein biosynthesis. (395 aa) |
| | AQG81581.1 | Amidohydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (545 aa) |
| | rpsJ | 30S ribosomal protein S10; Involved in the binding of tRNA to the ribosomes. Belongs to the universal ribosomal protein uS10 family. (101 aa) |
| | AQG81556.1 | Pyruvate dehydrogenase; The pyruvate dehydrogenase complex catalyzes the overall conversion of pyruvate to acetyl-CoA and CO2. (326 aa) |
| | def-2 | Peptide deformylase; Removes the formyl group from the N-terminal Met of newly synthesized proteins. Requires at least a dipeptide for an efficient rate of reaction. N-terminal L-methionine is a prerequisite for activity but the enzyme has broad specificity at other positions. (190 aa) |
| | pdhA | Pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha; The pyruvate dehydrogenase complex catalyzes the overall conversion of pyruvate to acetyl-CoA and CO(2). (353 aa) |
| | AQG81444.1 | MBL fold metallo-hydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (465 aa) |
| | cysS | cysteine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the class-I aminoacyl-tRNA synthetase family. (495 aa) |
| | bioD | ATP-dependent dethiobiotin synthetase BioD; Catalyzes a mechanistically unusual reaction, the ATP- dependent insertion of CO2 between the N7 and N8 nitrogen atoms of 7,8- diaminopelargonic acid (DAPA) to form an ureido ring. (207 aa) |
| | gatB | glutamyl-tRNA amidotransferase; Allows the formation of correctly charged Asn-tRNA(Asn) or Gln-tRNA(Gln) through the transamidation of misacylated Asp-tRNA(Asn) or Glu-tRNA(Gln) in organisms which lack either or both of asparaginyl- tRNA or glutaminyl-tRNA synthetases. The reaction takes place in the presence of glutamine and ATP through an activated phospho-Asp- tRNA(Asn) or phospho-Glu-tRNA(Gln); Belongs to the GatB/GatE family. GatB subfamily. (501 aa) |
| | rpmB | 50S ribosomal protein L28; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL28 family. (79 aa) |
| | panB | 3-methyl-2-oxobutanoate hydroxymethyltransferase; Catalyzes the reversible reaction in which hydroxymethyl group from 5,10-methylenetetrahydrofolate is transferred onto alpha- ketoisovalerate to form ketopantoate; Belongs to the PanB family. (272 aa) |
| | AQG81281.1 | 2-amino-4-hydroxy-6- hydroxymethyldihydropteridine pyrophosphokinase; Derived by automated computational analysis using gene prediction method: Protein Homology. (160 aa) |
| | AQG81251.1 | acyl-CoA thioesterase; Derived by automated computational analysis using gene prediction method: Protein Homology. (194 aa) |
| | AQG81170.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (441 aa) |
| | prfA | Peptide chain release factor 1; Peptide chain release factor 1 directs the termination of translation in response to the peptide chain termination codons UAG and UAA. (357 aa) |
| | gatC | glutamyl-tRNA amidotransferase; Allows the formation of correctly charged Asn-tRNA(Asn) or Gln-tRNA(Gln) through the transamidation of misacylated Asp-tRNA(Asn) or Glu-tRNA(Gln) in organisms which lack either or both of asparaginyl- tRNA or glutaminyl-tRNA synthetases. The reaction takes place in the presence of glutamine and ATP through an activated phospho-Asp- tRNA(Asn) or phospho-Glu-tRNA(Gln); Belongs to the GatC family. (95 aa) |
| | AQG81107.1 | tRNA-binding protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (111 aa) |
| | AQG81061.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (123 aa) |
| | AQG81050.1 | Peptide chain release factor 1; Derived by automated computational analysis using gene prediction method: Protein Homology. (133 aa) |
| | rplM | 50S ribosomal protein L13; This protein is one of the early assembly proteins of the 50S ribosomal subunit, although it is not seen to bind rRNA by itself. It is important during the early stages of 50S assembly. (147 aa) |
| | rpsI | 30S ribosomal protein S9; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the universal ribosomal protein uS9 family. (128 aa) |
| | rpsB | 30S ribosomal protein S2; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the universal ribosomal protein uS2 family. (278 aa) |
| | tsf | Elongation factor Ts; Associates with the EF-Tu.GDP complex and induces the exchange of GDP to GTP. It remains bound to the aminoacyl-tRNA.EF- Tu.GTP complex up to the GTP hydrolysis stage on the ribosome. Belongs to the EF-Ts family. (277 aa) |
| | AQG80893.1 | 2-oxoglutarate dehydrogenase; E2 component of the 2-oxoglutarate dehydrogenase (OGDH) complex which catalyzes the second step in the conversion of 2- oxoglutarate to succinyl-CoA and CO(2). (549 aa) |
| | AQG82546.1 | alpha-L-glutamate ligase; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the RimK family. (302 aa) |
| | AQG82545.1 | ATP-dependent zinc protease; Derived by automated computational analysis using gene prediction method: Protein Homology. (144 aa) |
| | panD | Aspartate decarboxylase; Catalyzes the pyruvoyl-dependent decarboxylation of aspartate to produce beta-alanine. (117 aa) |
| | AQG80693.1 | Dipeptide epimerase; Derived by automated computational analysis using gene prediction method: Protein Homology. (338 aa) |
| | AQG80692.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (418 aa) |
| | rpmE2 | 50S ribosomal protein L31; Derived by automated computational analysis using gene prediction method: Protein Homology. (80 aa) |
| | AQG80665.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (220 aa) |
| | AQG80664.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (322 aa) |
| | panC | Pantoate--beta-alanine ligase; Catalyzes the condensation of pantoate with beta-alanine in an ATP-dependent reaction via a pantoyl-adenylate intermediate. Belongs to the pantothenate synthetase family. (279 aa) |
| | AQG80628.1 | Amidase; Derived by automated computational analysis using gene prediction method: Protein Homology. (558 aa) |
| | AQG80610.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1027 aa) |
| | AQG80469.1 | Gamma-glutamyltranspeptidase; Derived by automated computational analysis using gene prediction method: Protein Homology. (603 aa) |
| | AQG82502.1 | Amidohydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (425 aa) |
| | pth | peptidyl-tRNA hydrolase; The natural substrate for this enzyme may be peptidyl-tRNAs which drop off the ribosome during protein synthesis. Belongs to the PTH family. (187 aa) |
| | AQG80358.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1084 aa) |
| | AQG80357.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (536 aa) |
| | pheT | phenylalanine--tRNA ligase subunit beta; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the phenylalanyl-tRNA synthetase beta subunit family. Type 1 subfamily. (809 aa) |
| | infB | Translation initiation factor IF-2; One of the essential components for the initiation of protein synthesis. Protects formylmethionyl-tRNA from spontaneous hydrolysis and promotes its binding to the 30S ribosomal subunits. Also involved in the hydrolysis of GTP during the formation of the 70S ribosomal complex; Belongs to the TRAFAC class translation factor GTPase superfamily. Classic translation factor GTPase family. IF-2 subfamily. (1107 aa) |
| | fmt | methionyl-tRNA formyltransferase; Attaches a formyl group to the free amino group of methionyl- tRNA(fMet). The formyl group appears to play a dual role in the initiator identity of N-formylmethionyl-tRNA by promoting its recognition by IF2 and preventing the misappropriation of this tRNA by the elongation apparatus; Belongs to the Fmt family. (300 aa) |
| | tyrS | tyrosine--tRNA ligase; Catalyzes the attachment of tyrosine to tRNA(Tyr) in a two- step reaction: tyrosine is first activated by ATP to form Tyr-AMP and then transferred to the acceptor end of tRNA(Tyr); Belongs to the class-I aminoacyl-tRNA synthetase family. TyrS type 1 subfamily. (431 aa) |
| | AQG80097.1 | S26 family signal peptidase; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the peptidase S26 family. (390 aa) |
| | AQG80091.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1050 aa) |
| | AQG80066.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (389 aa) |
| | rplU | 50S ribosomal protein L21; This protein binds to 23S rRNA in the presence of protein L20; Belongs to the bacterial ribosomal protein bL21 family. (105 aa) |
| | rpmA | 50S ribosomal protein L27; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL27 family. (99 aa) |
| | AQG82458.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1044 aa) |
| | AQG79988.1 | Phosphopantothenoylcysteine decarboxylase; Catalyzes two steps in the biosynthesis of coenzyme A. In the first step cysteine is conjugated to 4'-phosphopantothenate to form 4- phosphopantothenoylcysteine, in the latter compound is decarboxylated to form 4'-phosphopantotheine; In the C-terminal section; belongs to the PPC synthetase family. (413 aa) |
| | argS | arginine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology. (600 aa) |
| | ileS | isoleucine--tRNA ligase; Catalyzes the attachment of isoleucine to tRNA(Ile). As IleRS can inadvertently accommodate and process structurally similar amino acids such as valine, to avoid such errors it has two additional distinct tRNA(Ile)-dependent editing activities. One activity is designated as 'pretransfer' editing and involves the hydrolysis of activated Val-AMP. The other activity is designated 'posttransfer' editing and involves deacylation of mischarged Val-tRNA(Ile). Belongs to the class-I aminoacyl-tRNA synthetase family. IleS type 2 subfamily. (1177 aa) |
| | AQG82448.1 | Class A beta-lactamase; Derived by automated computational analysis using gene prediction method: Protein Homology. (301 aa) |
| | AQG79889.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (1112 aa) |
| | AQG82444.1 | Serine hydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (268 aa) |
| | AQG79836.1 | Selenocysteine synthase; Derived by automated computational analysis using gene prediction method: Protein Homology. (407 aa) |
| | AQG79780.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (330 aa) |
| | AQG79750.1 | Peptidase T; Cleaves the N-terminal amino acid of tripeptides. Belongs to the peptidase M20B family. (418 aa) |
| | metG | methionine--tRNA ligase; Is required not only for elongation of protein synthesis but also for the initiation of all mRNA translation through initiator tRNA(fMet) aminoacylation. (683 aa) |
| | AQG79693.1 | acyl-CoA thioesterase; Derived by automated computational analysis using gene prediction method: Protein Homology. (172 aa) |
| | AQG79672.1 | Formyl transferase; Derived by automated computational analysis using gene prediction method: Protein Homology. (254 aa) |
| | alaS | alanine--tRNA ligase; Catalyzes the attachment of alanine to tRNA(Ala) in a two- step reaction: alanine is first activated by ATP to form Ala-AMP and then transferred to the acceptor end of tRNA(Ala). Also edits incorrectly charged Ser-tRNA(Ala) and Gly-tRNA(Ala) via its editing domain. (892 aa) |
| | AQG79595.1 | Amidohydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (450 aa) |
| | AQG79574.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (707 aa) |
| | AQG79565.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1016 aa) |
| | rplI | 50S ribosomal protein L9; Binds to the 23S rRNA. (147 aa) |
| | rpsR | 30S ribosomal protein S18; Binds as a heterodimer with protein S6 to the central domain of the 16S rRNA, where it helps stabilize the platform of the 30S subunit; Belongs to the bacterial ribosomal protein bS18 family. (83 aa) |
| | rpsF | 30S ribosomal protein S6; Binds together with S18 to 16S ribosomal RNA. (122 aa) |
| | prfC | Peptide chain release factor 3; Increases the formation of ribosomal termination complexes and stimulates activities of RF-1 and RF-2. It binds guanine nucleotides and has strong preference for UGA stop codons. It may interact directly with the ribosome. The stimulation of RF-1 and RF-2 is significantly reduced by GTP and GDP, but not by GMP. Belongs to the TRAFAC class translation factor GTPase superfamily. Classic translation factor GTPase family. PrfC subfamily. (531 aa) |
| | thrS | threonine--tRNA ligase; Catalyzes the attachment of threonine to tRNA(Thr) in a two- step reaction: L-threonine is first activated by ATP to form Thr-AMP and then transferred to the acceptor end of tRNA(Thr). (647 aa) |
| | infC | Translation initiation factor IF-3; IF-3 binds to the 30S ribosomal subunit and shifts the equilibrum between 70S ribosomes and their 50S and 30S subunits in favor of the free subunits, thus enhancing the availability of 30S subunits on which protein synthesis initiation begins. (184 aa) |
| | rpmI | 50S ribosomal protein L35; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL35 family. (64 aa) |
| | AQG79475.1 | 50S ribosomal protein L20; Binds directly to 23S ribosomal RNA and is necessary for the in vitro assembly process of the 50S ribosomal subunit. It is not involved in the protein synthesizing functions of that subunit. (97 aa) |
| | lepA | Elongation factor 4; Required for accurate and efficient protein synthesis under certain stress conditions. May act as a fidelity factor of the translation reaction, by catalyzing a one-codon backward translocation of tRNAs on improperly translocated ribosomes. Back-translocation proceeds from a post-translocation (POST) complex to a pre- translocation (PRE) complex, thus giving elongation factor G a second chance to translocate the tRNAs correctly. Binds to ribosomes in a GTP- dependent manner. (595 aa) |
| | accA | acetyl-CoA carboxyl transferase; Component of the acetyl coenzyme A carboxylase (ACC) complex. First, biotin carboxylase catalyzes the carboxylation of biotin on its carrier protein (BCCP) and then the CO(2) group is transferred by the carboxyltransferase to acetyl-CoA to form malonyl-CoA. (322 aa) |
| | AQG79410.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (64 aa) |
| | rpsP | 30S ribosomal protein S16; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bS16 family. (187 aa) |
| | rplS | 50S ribosomal protein L19; This protein is located at the 30S-50S ribosomal subunit interface and may play a role in the structure and function of the aminoacyl-tRNA binding site. (124 aa) |
| | glnS | glutamine--tRNA ligase; Catalyzes a two-step reaction, first charging a glutamine molecule by linking its carboxyl group to the alpha-phosphate of ATP, followed by transfer of the aminoacyl-adenylate to its tRNA; Derived by automated computational analysis using gene prediction method: Protein Homology. (571 aa) |
| | proS | proline--tRNA ligase; Catalyzes the attachment of proline to tRNA(Pro) in a two- step reaction: proline is first activated by ATP to form Pro-AMP and then transferred to the acceptor end of tRNA(Pro). (490 aa) |
| | AQG79326.1 | Pyruvate dehydrogenase; The pyruvate dehydrogenase complex catalyzes the overall conversion of pyruvate to acetyl-CoA and CO(2). (584 aa) |
| | rplY | 50S ribosomal protein L25/general stress protein Ctc; This is one of the proteins that binds to the 5S RNA in the ribosome where it forms part of the central protuberance. Belongs to the bacterial ribosomal protein bL25 family. CTC subfamily. (188 aa) |
| | AQG79315.1 | tryptophan--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the class-I aminoacyl-tRNA synthetase family. (324 aa) |
| | rpsO | 30S ribosomal protein S15; Forms an intersubunit bridge (bridge B4) with the 23S rRNA of the 50S subunit in the ribosome. (91 aa) |
| | AQG79250.1 | Hypothetical protein; Catalyzes the NADPH-dependent reduction of ketopantoate into pantoic acid. (307 aa) |
| | AQG79232.1 | Glyoxalase; Derived by automated computational analysis using gene prediction method: Protein Homology. (125 aa) |
| | hisS | histidine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology. (464 aa) |
| | frr | Ribosome recycling factor; Responsible for the release of ribosomes from messenger RNA at the termination of protein biosynthesis. May increase the efficiency of translation by recycling ribosomes from one round of translation to another; Belongs to the RRF family. (186 aa) |
| | bioB | Biotin synthase; Catalyzes the conversion of dethiobiotin (DTB) to biotin by the insertion of a sulfur atom into dethiobiotin via a radical-based mechanism; Belongs to the radical SAM superfamily. Biotin synthase family. (331 aa) |
| | AQG79129.1 | Signal peptide peptidase SppA; Derived by automated computational analysis using gene prediction method: Protein Homology. (588 aa) |
| | asnS | asparagine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology. (495 aa) |
| | AQG82354.1 | Acetyl-coenzyme A synthetase; Catalyzes the conversion of acetate into acetyl-CoA (AcCoA), an essential intermediate at the junction of anabolic and catabolic pathways. AcsA undergoes a two-step reaction. In the first half reaction, AcsA combines acetate with ATP to form acetyl-adenylate (AcAMP) intermediate. In the second half reaction, it can then transfer the acetyl group from AcAMP to the sulfhydryl group of CoA, forming the product AcCoA. (631 aa) |
| | AQG78872.1 | Glutathione synthase; Derived by automated computational analysis using gene prediction method: Protein Homology. (365 aa) |
| | pheS | phenylalanine--tRNA ligase subunit alpha; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the class-II aminoacyl-tRNA synthetase family. Phe-tRNA synthetase alpha subunit type 1 subfamily. (352 aa) |
| | AQG78797.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (231 aa) |
| | AQG78796.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (162 aa) |
| | leuS | leucine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the class-I aminoacyl-tRNA synthetase family. (1009 aa) |
| | AQG82317.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1033 aa) |
| | AQG78672.1 | Amidohydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (1017 aa) |
| | AQG78671.1 | Amidohydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (433 aa) |
| | def | Formylmethionine deformylase; Removes the formyl group from the N-terminal Met of newly synthesized proteins. Requires at least a dipeptide for an efficient rate of reaction. N-terminal L-methionine is a prerequisite for activity but the enzyme has broad specificity at other positions. (171 aa) |
| | rpsT | 30S ribosomal protein S20; Binds directly to 16S ribosomal RNA. (88 aa) |
| | AQG78638.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (364 aa) |
| | AQG78612.1 | Ferredoxin; Derived by automated computational analysis using gene prediction method: Protein Homology. (134 aa) |
| | AQG78513.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1032 aa) |
| | glyQS | glycine--tRNA ligase; Catalyzes the attachment of glycine to tRNA(Gly). Belongs to the class-II aminoacyl-tRNA synthetase family. (512 aa) |
| | AQG78298.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (358 aa) |
| | AQG78275.1 | SusC/RagA family TonB-linked outer membrane protein; Derived by automated computational analysis using gene prediction method: Protein Homology. (1179 aa) |
| | AQG78234.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (1023 aa) |
| | AQG78194.1 | Dipeptide epimerase; Derived by automated computational analysis using gene prediction method: Protein Homology. (377 aa) |
| | AQG82253.1 | SUI1 family translation initiation factor; Derived by automated computational analysis using gene prediction method: Protein Homology. (112 aa) |
| | AQG78062.1 | Hypothetical protein; Derived by automated computational analysis using gene prediction method: GeneMarkS+. (843 aa) |
| | rpmH | 50S ribosomal protein L34; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bL34 family. (55 aa) |
| | lysS | lysine--tRNA ligase; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the class-II aminoacyl-tRNA synthetase family. (594 aa) |
| | AQG78038.1 | Glyoxalase; Derived by automated computational analysis using gene prediction method: Protein Homology. (121 aa) |
| | AQG77967.1 | Serine hydrolase; Derived by automated computational analysis using gene prediction method: Protein Homology. (306 aa) |
| | rpsU | 30S ribosomal protein S21; Derived by automated computational analysis using gene prediction method: Protein Homology; Belongs to the bacterial ribosomal protein bS21 family. (65 aa) |
