Sulfur Containing Compound Database
| Gene name | GTR1 |
| AGI ID | AT3G47960 |
| Gene length | 636 |
| Uniprot ID | Q944G5 |
| Protein Name | Protein NRT1/ PTR FAMILY 2.10 |
| Synonym | NPF2.10 |
| EC number | N/A |
| Entrez Gene | 823951 |
| Refseq mrna | NM_114665 |
| Refseq protein | NP_566896 |
| Function | Leaf apoplastic fluid analysis and GSL feeding experiments showed two GSL transporters. GTR1 and GTR2 were essential for long-distance transport of GSLs in Arabidopsis and also play key roles in GSL allocation within a mature leaf by effectively importing apoplastically localized GSLs into appropriate cells (Madsen et al. 2014) |
| Group | GSL degradation |
| Reference | Nour-Eldin et al. (2012); Madsen et al. (2014); Andersen & Halkier (2014); Andersen et al. (2013); Jørgensen et al. (2015) |
| Organism | AGI ID | Gene Name | Protein Name | Identity | E-Value | Description |
|---|---|---|---|---|---|---|
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
82 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
85 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
85 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
84 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
81 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
81 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
79 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
81 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
80 |
0.00E+00 |
||
|
Papaya |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
69 |
0.00E+00 |
||
|
Papaya |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
67 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
65 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
63 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
62 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
63 |
0.00E+00 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
63 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
65 |
0.00E+00 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
46 |
2.00E-143 |
||
|
Cabbage |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
46 |
4.00E-142 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
46 |
7.00E-142 |
||
|
Papaya |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
43 |
4.00E-141 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
47 |
5.00E-141 |
||
|
Broccoli |
GTR1 |
Protein NRT1/ PTR FAMILY 2.10 |
43 |
1.00E-125 |
| GO ID | Ontology | GO Term | Description |
|---|---|---|---|
|
MF |
transporter activity |
Enables the directed movement of substances (such as macromolecules, small molecules, ions) into, out of or within a cell, or between cells. |
|
|
CC |
Golgi apparatus |
A compound membranous cytoplasmic organelle of eukaryotic cells, consisting of flattened, ribosome-free vesicles arranged in a more or less regular stack. The Golgi apparatus differs from the endoplasmic reticulum in often having slightly thicker membrane |
|
|
CC |
plasma membrane |
The membrane surrounding a cell that separates the cell from its external environment. It consists of a phospholipid bilayer and associated proteins. |
|
|
BP |
oligopeptide transport |
The directed movement of oligopeptides into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. Oligopeptides are molecules that contain a small number (2 to 20) of amino-acid residues connected by peptide lin |
|
|
CC |
plasmodesma |
A fine cytoplasmic channel, found in all higher plants, that connects the cytoplasm of one cell to that of an adjacent cell. |
|
|
CC |
membrane |
A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. |
|
|
CC |
integral component of membrane |
The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. |
|
|
MF |
glucosinolate:proton symporter activity |
Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: glucosinolate(out) + H+(out) = glucosinolate(in) + H+(in). |
|
|
BP |
phloem glucosinolate loading |
The process of loading glucosinolates into the sieve tube or companion cell of the phloem for long distance transport from source to sink. |
|
|
BP |
glucosinolate transport |
The directed movement of a glucosinolate into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. |
| Pubmed ID | Authors | Year | Title | Journal | Description |
|---|---|---|---|---|---|
|
Andersen, T.G. & Halkier, B.A. |
2014 |
Upon bolting the GTR1 and GTR2 transporters mediate transport of glucosinolates to the inflorescence rather than roots |
Plant Signaling & Behavior |
||
|
Andersen, T.G., Nour-Eldin, H.H., Fuller, V.L., Olsen, C.E., Burow, M. & Halkier, B.A. |
2013 |
Integration of biosynthesis and long-distance transport establish organ-specific glucosinolate profiles in vegetative Arabidopsis |
Plant Cell |
||
|
Madsen, S.R., Olsen, C.E., Nour-Eldin, H.H. & Halkier, B.A. |
2014 |
Elucidating the role of transport processes in leaf glucosinolate distribution |
Plant Physiology |
||
|
Nour-Eldin, H.H., Andersen, T.G., Burow, M., Madsen, S.R. & J?rgensen, M.E. |
2012 |
NRT/PTR transporters are essential for translocation of glucosinolate defence compounds to seeds |
Nature |
||
|
J?rgensen, M.E., Nour-Eldin, H.H. & Halkier, B.A. |
2015 |
Transport of defense compounds from source to sink: lessons learned from glucosinolates |
Trends Plant Sci |