Organism | UniProt | Comment | Textmining |
---|---|---|---|
Chamaecyparis lawsoniana | Q2L631 and Q2L630 and Q2L629 | subunit B, subunit L, and subunit N | - |
Chamaecyparis obtusa | Q2L634 and Q2L633 and Q2L632 | subunit B, subunit L, and subunit N | - |
Chamaecyparis pisifera | Q2L637 and Q2L636 and Q2L635 | subunit B, subunit L, and subunit N | - |
Cryptomeria japonica | Q2L646 and Q2L645 and Q2L644 | subunit B, subunit L, and subunit N | - |
Cunninghamia lanceolata | Q2L604 and Q2L603 and Q2L602 | subunit B, subunit L, and subunit N | - |
Cupressus sempervirens | Q2L628 and Q2L627 and Q2L626 | subunit B, subunit L, and subunit N | - |
Glyptostrobus pensilis | Q2L643 and Q2L642 and Q2L641 | subunit B, subunit L, and subunit N | - |
Juniperus chinensis | Q2L622 and Q2L621 and Q2L620 | subunit B, subunit L, and subunit N; variant Juniperus chinensis procumbens | - |
Juniperus rigida | Q2L625 and Q2L624 and Q2L623 | subunit B, subunit L and subunit N | - |
Metasequoia glyptostroboides | Q2L658 and Q2L657 and Q2L656 | subunit B, subunit L, and subunit N | - |
no activity in Thuja occidentalis | - |
- |
- |
no activity in Thuja plicata | - |
- |
- |
no activity in Thuja standishii | - |
- |
- |
Platycladus orientalis | Q2L619 and Q2L618 and Q2L617 | subunit B, subunit L and subunit N | - |
Sequoia sempervirens | Q2L655 and Q2L654 and Q2L653 | subunit B, subunit L, and subunit N | - |
Sequoiadendron giganteum | Q2L652 and Q2L651 and Q2L650 | subunit B, subunit L, and subunit N | - |
Taxodium distichum | Q2L640 and Q2L639 and Q2L638 | subunit B, subunit L, and subunit N | - |
Thujopsis dolabrata | Q2L614 | subunit N | - |
Thujopsis dolabrata | Q2L615 | subunit L | - |
Thujopsis dolabrata | Q2L616 | subunit B | - |
General Information | Comment | Organism |
---|---|---|
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Thujopsis dolabrata |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Platycladus orientalis |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Juniperus rigida |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Juniperus chinensis |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Cupressus sempervirens |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Chamaecyparis pisifera |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Chamaecyparis obtusa |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Chamaecyparis lawsoniana |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Taxodium distichum |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Glyptostrobus pensilis |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Cryptomeria japonica |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Sequoiadendron giganteum |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Sequoia sempervirens |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Metasequoia glyptostroboides |
physiological function | DPOR plays a key role in the ability to synthesize chlorophyll in darkness | Cunninghamia lanceolata |