STRINGSTRING
AKG04674.1 AKG04674.1 AKG04672.1 AKG04672.1 fliI fliI AKG04301.1 AKG04301.1 AKG04256.1 AKG04256.1 AKG04251.1 AKG04251.1 AKG04083.1 AKG04083.1 AKG03952.1 AKG03952.1 AKG03921.1 AKG03921.1 panF panF AKG03782.1 AKG03782.1 atpC atpC atpD atpD atpG atpG atpH atpH atpF atpF atpE atpE atpB atpB AKG03658.1 AKG03658.1 AKG05654.1 AKG05654.1 AKG03576.1 AKG03576.1 AKG03515.1 AKG03515.1 atpA atpA AKG03494.1 AKG03494.1 AKG05468.1 AKG05468.1 AKG05404.1 AKG05404.1 AKG05232.1 AKG05232.1 AKG05792.1 AKG05792.1 APC65599.1 APC65599.1 AKG05191.1 AKG05191.1 AKG05131.1 AKG05131.1 AKG05125.1 AKG05125.1 AKG05067.1 AKG05067.1 AKG04966.1 AKG04966.1 AKG04965.1 AKG04965.1 AKG04950.1 AKG04950.1 AKG04941.1 AKG04941.1 AKG04940.1 AKG04940.1 AKG04939.1 AKG04939.1 AKG05758.1 AKG05758.1 AKG05756.1 AKG05756.1 AKG04897.1 AKG04897.1 AKG04890.1 AKG04890.1 AKG04821.1 AKG04821.1 AKG04788.1 AKG04788.1 corA corA AKG04677.1 AKG04677.1 AKG04676.1 AKG04676.1 AKG04675.1 AKG04675.1
Nodes:
Network nodes represent proteins
splice isoforms or post-translational modifications are collapsed, i.e. each node represents all the proteins produced by a single, protein-coding gene locus.
Node Color
colored nodes:
query proteins and first shell of interactors
white nodes:
second shell of interactors
Node Content
empty nodes:
proteins of unknown 3D structure
filled nodes:
a 3D structure is known or predicted
Edges:
Edges represent protein-protein associations
associations are meant to be specific and meaningful, i.e. proteins jointly contribute to a shared function; this does not necessarily mean they are physically binding to each other.
Known Interactions
from curated databases
experimentally determined
Predicted Interactions
gene neighborhood
gene fusions
gene co-occurrence
Others
textmining
co-expression
protein homology
Your Input:
AKG04674.1Cytochrome c oxidase subunit IVB. (108 aa)
AKG04672.1Hypothetical protein. (151 aa)
fliIFlagellar protein export ATPase FliI. (438 aa)
AKG04301.1Sodium-dependent phosphate transporter. (545 aa)
AKG04256.1Na+/H+ antiporter subunit A. (775 aa)
AKG04251.1Na+/H+ antiporter subunit G. (119 aa)
AKG04083.1Motility protein A; Homolog of MotA, appears to be involved in motility on surfaces and under different ionic conditions. With MotS (a MotB homolog) forms the ion channels that couple flagellar rotation to proton/sodium motive force across the membrane and forms the stator elements of the rotary flagellar machine. (276 aa)
AKG03952.1PTS fructose transporter subunit IIA. (628 aa)
AKG03921.1Hypothetical protein. (316 aa)
panFSodium/panthothenate symporter; Belongs to the sodium:solute symporter (SSF) (TC 2.A.21) family. (484 aa)
AKG03782.1Sodium:alanine symporter family protein. (464 aa)
atpCF0F1 ATP synthase subunit epsilon; Produces ATP from ADP in the presence of a proton gradient across the membrane. (134 aa)
atpDF0F1 ATP synthase subunit beta; Produces ATP from ADP in the presence of a proton gradient across the membrane. The catalytic sites are hosted primarily by the beta subunits. (464 aa)
atpGF0F1 ATP synthase subunit gamma; Produces ATP from ADP in the presence of a proton gradient across the membrane. The gamma chain is believed to be important in regulating ATPase activity and the flow of protons through the CF(0) complex. (289 aa)
atpHF0F1 ATP synthase subunit delta; F(1)F(0) ATP synthase produces ATP from ADP in the presence of a proton or sodium gradient. F-type ATPases consist of two structural domains, F(1) containing the extramembraneous catalytic core and F(0) containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. (183 aa)
atpFATP synthase F0 subunit B; Component of the F(0) channel, it forms part of the peripheral stalk, linking F(1) to F(0); Belongs to the ATPase B chain family. (173 aa)
atpEF0F1 ATP synthase subunit C; F(1)F(0) ATP synthase produces ATP from ADP in the presence of a proton or sodium gradient. F-type ATPases consist of two structural domains, F(1) containing the extramembraneous catalytic core and F(0) containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. (70 aa)
atpBF0F1 ATP synthase subunit A; Key component of the proton channel; it plays a direct role in the translocation of protons across the membrane. Belongs to the ATPase A chain family. (240 aa)
AKG03658.1Sodium:alanine symporter family protein. (476 aa)
AKG05654.1Cytochrome C; Belongs to the heme-copper respiratory oxidase family. (547 aa)
AKG03576.1Cytochrome B5. (157 aa)
AKG03515.1Ion transporter. (249 aa)
atpAF0F1 ATP synthase subunit alpha; Produces ATP from ADP in the presence of a proton gradient across the membrane. The alpha chain is a regulatory subunit. (502 aa)
AKG03494.1Sodium:glutamate symporter. (474 aa)
AKG05468.1Copper-translocating P-type ATPase. (790 aa)
AKG05404.1Cation transporter. (297 aa)
AKG05232.1Cytochrome aa3 quinol oxidase subunit III. (191 aa)
AKG05792.1Cytochrome ubiquinol oxidase subunit I; Belongs to the heme-copper respiratory oxidase family. (609 aa)
APC65599.1Cytochrome c oxidase subunit II; Subunits I and II form the functional core of the enzyme complex. Electrons originating in cytochrome c are transferred via heme a and Cu(A) to the binuclear center formed by heme a3 and Cu(B). (227 aa)
AKG05191.1Sodium/proline symporter; Catalyzes the sodium-dependent uptake of extracellular L- proline; Belongs to the sodium:solute symporter (SSF) (TC 2.A.21) family. (503 aa)
AKG05131.1Hypothetical protein. (214 aa)
AKG05125.1Sodium:alanine symporter family protein. (451 aa)
AKG05067.1K+/H+ antiporter. (492 aa)
AKG04966.1Peptide ABC transporter permease. (308 aa)
AKG04965.1Peptide ABC transporter permease. (376 aa)
AKG04950.1Magnesium transporter; Acts as a magnesium transporter. (454 aa)
AKG04941.1Cytochrome aa3 quinol oxidase subunit III. (198 aa)
AKG04940.1Cytochrome aa3 quinol oxidase subunit I; Belongs to the heme-copper respiratory oxidase family. (649 aa)
AKG04939.1Cytochrome aa3 quinol oxidase subunit II; Catalyzes quinol oxidation with the concomitant reduction of oxygen to water. Subunit II transfers the electrons from a quinol to the binuclear center of the catalytic subunit I. (298 aa)
AKG05758.1Copper-translocating P-type ATPase. (671 aa)
AKG05756.1ZIP family metal transporter. (269 aa)
AKG04897.1ATPase. (826 aa)
AKG04890.1PTS mannose transporter subunit IIABC; Phosphoenolpyruvate-dependent sugar phosphotransferase system; catalyzes the phosphorylation of incoming sugar substrates concomitant with their translocation across the cell membrane; IIB is phosphorylated by IIA and then transfers the phosphoryl group to the sugar; IIC forms the translocation channel. (650 aa)
AKG04821.1K+/H+ antiporter. (505 aa)
AKG04788.1Hypothetical protein. (389 aa)
corAMagnesium and cobalt transport protein CorA; Mediates influx of magnesium ions. Belongs to the CorA metal ion transporter (MIT) (TC 1.A.35) family. (313 aa)
AKG04677.1Cytochrome c oxidase subunit II; Subunits I and II form the functional core of the enzyme complex. Electrons originating in cytochrome c are transferred via heme a and Cu(A) to the binuclear center formed by heme a3 and Cu(B). (355 aa)
AKG04676.1Cytochrome c oxidase subunit I; Cytochrome c oxidase is the component of the respiratory chain that catalyzes the reduction of oxygen to water. Subunits 1-3 form the functional core of the enzyme complex. CO I is the catalytic subunit of the enzyme. Electrons originating in cytochrome c are transferred via the copper A center of subunit 2 and heme A of subunit 1 to the bimetallic center formed by heme A3 and copper B. (620 aa)
AKG04675.1Cytochrome (ubi)quinol oxidase subunit III. (207 aa)
Your Current Organism:
Salimicrobium jeotgali
NCBI taxonomy Id: 1230341
Other names: JCM 19758, KACC 16972, S. jeotgali, Salimicrobium jeotgali Choi et al. 2014, Salimicrobium sp. MJ3, strain MJ3
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