(53 nodes) Quinone binding network (Vitis vinifera)

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splice isoforms or post-translational modifications are collapsed, i.e. each node represents all the proteins produced by a single, protein-coding gene locus.

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query proteins and first shell of interactors

white nodes:
second shell of interactors

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proteins of unknown 3D structure

filled nodes:
a 3D structure is known or predicted

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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

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protein homology

Your Input:
	F6HUI4_VITVI	Amine oxidase. (727 aa)
	F6HCT6_VITVI	Uncharacterized protein. (266 aa)
	F6HD83_VITVI	Proton_antipo_M domain-containing protein. (198 aa)
	F6HJ41_VITVI	Uncharacterized protein. (450 aa)
	F6HDD0_VITVI	Amine oxidase; Belongs to the copper/topaquinone oxidase family. (102 aa)
	ndhJ	NAD(P)H-quinone oxidoreductase subunit J, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (158 aa)
	ndhK	NAD(P)H-quinone oxidoreductase subunit K, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. Belongs to the complex I 20 kDa subunit family. (225 aa)
	ndhC	NAD(P)H-quinone oxidoreductase subunit 3, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (120 aa)
	ndhF	NAD(P)H-quinone oxidoreductase subunit 5, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient (By similarity). (749 aa)
	ndhD	NAD(P)H-quinone oxidoreductase chain 4, chloroplastic. (500 aa)
	ndhE	NAD(P)H-quinone oxidoreductase subunit 4L, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (101 aa)
	ndhG	NAD(P)H-quinone oxidoreductase subunit 6, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient (By similarity). (176 aa)
	ndhI	NAD(P)H-quinone oxidoreductase subunit I, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. Belongs to the complex I 23 kDa subunit family. (167 aa)
	ndhA	NAD(P)H-quinone oxidoreductase subunit 1, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (363 aa)
	ndhH	NAD(P)H-quinone oxidoreductase subunit H, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (393 aa)
	ndhB2	NAD(P)H-quinone oxidoreductase subunit 2 B, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (510 aa)
	ndhB1	NAD(P)H-quinone oxidoreductase subunit 2 A, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (510 aa)
	F6I190_VITVI	Polyketide_cyc domain-containing protein. (221 aa)
	F6HWY7_VITVI	Amine oxidase; Belongs to the copper/topaquinone oxidase family. (409 aa)
	F6HWV2_VITVI	VKc domain-containing protein. (290 aa)
	F6HB33_VITVI	Amine oxidase. (323 aa)
	F6HU24_VITVI	Uncharacterized protein. (231 aa)
	F6HU17_VITVI	Uncharacterized protein. (71 aa)
	F6HSD9_VITVI	Uncharacterized protein. (62 aa)
	F6HSD8_VITVI	Uncharacterized protein. (299 aa)
	F6HMW3_VITVI	Uncharacterized protein. (61 aa)
	F6HMK3_VITVI	Uncharacterized protein; Belongs to the complex I subunit 5 family. (485 aa)
	F6HMJ7_VITVI	Uncharacterized protein. (298 aa)
	F6HMJ6_VITVI	Complex1_49kDa domain-containing protein. (96 aa)
	VITISV_002798	J domain-containing protein. (253 aa)
	ndhM	NAD(P)H-quinone oxidoreductase subunit M, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. (208 aa)
	nad7	NADH dehydrogenase subunit 7; Belongs to the complex I 49 kDa subunit family. (394 aa)
	nad5	NADH-ubiquinone oxidoreductase chain 5; Core subunit of the mitochondrial membrane respiratory chain NADH dehydrogenase (Complex I) that is believed to belong to the minimal assembly required for catalysis. Complex I functions in the transfer of electrons from NADH to the respiratory chain. The immediate electron acceptor for the enzyme is believed to be ubiquinone. (670 aa)
	nad4	NADH-ubiquinone oxidoreductase chain 4; Core subunit of the mitochondrial membrane respiratory chain NADH dehydrogenase (Complex I) that is believed to belong to the minimal assembly required for catalysis. Complex I functions in the transfer of electrons from NADH to the respiratory chain. The immediate electron acceptor for the enzyme is believed to be ubiquinone. (495 aa)
	D7SMB3_VITVI	Uncharacterized protein. (627 aa)
	D7STW1_VITVI	J domain-containing protein. (214 aa)
	D7SYR4_VITVI	Amine oxidase. (774 aa)
	D7T2N7_VITVI	Uncharacterized protein. (400 aa)
	D7T5B2_VITVI	Uncharacterized protein. (431 aa)
	D7T6W2_VITVI	Amine oxidase. (667 aa)
	D7T6W4_VITVI	Amine oxidase. (674 aa)
	D7T6W7_VITVI	Amine oxidase. (647 aa)
	D7T6W8_VITVI	Amine oxidase. (676 aa)
	D7T8Q0_VITVI	Uncharacterized protein. (188 aa)
	D7TKS7_VITVI	Complex1_49kDa domain-containing protein. (385 aa)
	D7TSH3_VITVI	Complex1_49kDa domain-containing protein. (130 aa)
	D7U4E0_VITVI	Uncharacterized protein. (158 aa)
	E0CPV4_VITVI	Polyketide_cyc domain-containing protein. (246 aa)
	E0CVJ6_VITVI	Complex1_49kDa domain-containing protein. (441 aa)
	F6GSI0_VITVI	Amine oxidase. (791 aa)
	F6GU67_VITVI	Uncharacterized protein. (216 aa)
	F6GUI6_VITVI	Uncharacterized protein. (91 aa)
	F6H393_VITVI	Oxidored_q6 domain-containing protein; Belongs to the complex I 20 kDa subunit family. (209 aa)

Your Current Organism:

Vitis vinifera

NCBI taxonomy Id: 29760
Other names: V. vinifera, Vitis vinifera L., Vitis vinifera subsp. vinifera, wine grape

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Browse interactions in tabular form:

node1	node2	node1 accession	node2 accession	node1 annotation	node2 annotation	score
D7STW1_VITVI	D7T8Q0_VITVI	D7STW1	D7T8Q0	J domain-containing protein.	Uncharacterized protein.	0.522
D7STW1_VITVI	D7U4E0_VITVI	D7STW1	D7U4E0	J domain-containing protein.	Uncharacterized protein.	0.501
D7STW1_VITVI	F6HU24_VITVI	D7STW1	F6HU24	J domain-containing protein.	Uncharacterized protein.	0.585
D7STW1_VITVI	VITISV_002798	D7STW1	A5CA95	J domain-containing protein.	J domain-containing protein.	0.747
D7STW1_VITVI	ndhM	D7STW1	A7NVJ4	J domain-containing protein.	NAD(P)H-quinone oxidoreductase subunit M, chloroplastic; NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient.	0.543
D7SYR4_VITVI	D7T6W2_VITVI	D7SYR4	D7T6W2	Amine oxidase.	Amine oxidase.	0.649
D7SYR4_VITVI	D7T6W4_VITVI	D7SYR4	D7T6W4	Amine oxidase.	Amine oxidase.	0.651
D7SYR4_VITVI	D7T6W8_VITVI	D7SYR4	D7T6W8	Amine oxidase.	Amine oxidase.	0.651
D7SYR4_VITVI	F6GSI0_VITVI	D7SYR4	F6GSI0	Amine oxidase.	Amine oxidase.	0.603
D7SYR4_VITVI	F6HUI4_VITVI	D7SYR4	F6HUI4	Amine oxidase.	Amine oxidase.	0.660
D7SYR4_VITVI	F6HWY7_VITVI	D7SYR4	F6HWY7	Amine oxidase.	Amine oxidase; Belongs to the copper/topaquinone oxidase family.	0.669
D7T5B2_VITVI	D7TKS7_VITVI	D7T5B2	D7TKS7	Uncharacterized protein.	Complex1_49kDa domain-containing protein.	0.800
D7T5B2_VITVI	D7TSH3_VITVI	D7T5B2	D7TSH3	Uncharacterized protein.	Complex1_49kDa domain-containing protein.	0.800
D7T5B2_VITVI	E0CVJ6_VITVI	D7T5B2	E0CVJ6	Uncharacterized protein.	Complex1_49kDa domain-containing protein.	0.800
D7T5B2_VITVI	F6GUI6_VITVI	D7T5B2	F6GUI6	Uncharacterized protein.	Uncharacterized protein.	0.800
D7T5B2_VITVI	F6H393_VITVI	D7T5B2	F6H393	Uncharacterized protein.	Oxidored_q6 domain-containing protein; Belongs to the complex I 20 kDa subunit family.	0.935
D7T5B2_VITVI	F6HD83_VITVI	D7T5B2	F6HD83	Uncharacterized protein.	Proton_antipo_M domain-containing protein.	0.565
D7T5B2_VITVI	F6HMJ6_VITVI	D7T5B2	F6HMJ6	Uncharacterized protein.	Complex1_49kDa domain-containing protein.	0.800
D7T5B2_VITVI	F6HMJ7_VITVI	D7T5B2	F6HMJ7	Uncharacterized protein.	Uncharacterized protein.	0.800
D7T5B2_VITVI	F6HMK3_VITVI	D7T5B2	F6HMK3	Uncharacterized protein.	Uncharacterized protein; Belongs to the complex I subunit 5 family.	0.664