Table 3.
Compilation of the function associated with type-B response regtulators from different species
| Species | Involved in /expression changed upon treatment with |
| Catharanthus roseus CrRR5 | Expression detected64; Not affected by CrHPt1 antisense line13 |
| Lotus japonicas LjRRb1, LjRRb2, LjRRb3, LjRRb4, LjRRb5, LjRRb6, LjRRb7, LjRRb8, LjRRb9, LjRRb10, LjRRb11 | Expression detected20 |
| Medicago trunculata MtRR1, MtRR2 | Not cytokinin regulated11; MtRR1 is nod-factor dependent11, involved in nodulation11 and in developing seeds67 |
| Oryza sativa OsRR16, OsRR17, OsRR18, OsRR19, OsRR20, OsRR21, OsRR29, OsRR30/EDH1, OsRR33 | Not upregulated by cytokinin; expression level not changed by overexpression of OsRR3 and OsRR5 (OsRR16, OsRR17, OsRR18, OsRR20, OsRR21)60; slight regulation of OsRR16 by salt stress, cold stress and dehydration17, expression detected (OsRR16–21)19 |
| Populus trichocarpa PtRR12, PtRR13, PtRR14, PtRR15, PtRR16, PtRR17, PtRR18, PtRR19, PtRR20, PtRR21, PtRR22 | PtRR13 overexpressor and RNAi-line did not show any phenotype; constitutively active PtRR13 led to shorter and fewer roots, less adventious roots, callus formation at the cut site, greater tissue growth in absence of cytokinin23,24 |
| Zea maize ZmRR8, ZmRR9, ZmRR10 | ZmRR8 localized in the nucleus; Asp67/Asp78 important for ZmRR8/ZmRR9 to be phosphorylated by ZmHP1 and ZmHP2 in vitro; ZmRR8 receiver domain interacted strongly with ZmHP3, ZmRR with ZmHP2 and ZmRR10 with ZmHP141 |
| Vitis vinifera VvRRb1, VvRRb2, VvRRb3, VvRRb4, VvRRb5, VvRRb6 | Unaffected by sulfur depletion7 |