Pratt L H, Cordonnier-Pratt M M, Hauser B, Caboche M
Botany Department, University of Georgia, Athens 30602, USA.
Planta. 1995;197(1):203-6. doi: 10.1007/BF00239958.
Tomato (Solanum lycopersicon L.) contains two B-type phytochrome genes (PHYB1 and PHYB2). Fragments of these two PHYB were cloned following amplification by the polymerase chain reaction of a portion of their relatively well conserved 5' coding regions. Polypeptides encoded by these gene fragments exhibit 90% sequence identity. These two PHYB are independently expressed in organ-specific fashion. In mature plants, PHYB2 mRNA is most abundant in fruit and PHYB1 mRNA in expanded leaves. A phylogenetic analysis fails to establish which tomato PHYB is orthologous to either Arabidopsis PHYB or PHYD, the latter being a second B-type phytochrome. Instead, this analysis indicates that following the divergence of the Solanaceae and Brassicaceae from one another, a PHYB gene duplicated independently in each lineage. Consequently, Arabidopsis PHYB mutants cannot be considered strictly equivalent to the tomato tri mutants, which appear to be mutated at the PHYB1 locus. Similarly, other putative PHYB mutants might not be equivalent to those described for Arabidopsis and tomato. This situation complicates efforts to determine 'PHYB function' because there might be no one answer to this question.
番茄(Solanum lycopersicon L.)含有两个B型光敏色素基因(PHYB1和PHYB2)。通过聚合酶链反应扩增其相对保守的5'编码区的一部分后,克隆了这两个PHYB的片段。这些基因片段编码的多肽表现出90%的序列同一性。这两个PHYB以器官特异性方式独立表达。在成熟植株中,PHYB2 mRNA在果实中最为丰富,而PHYB1 mRNA在展开的叶片中最为丰富。系统发育分析未能确定番茄的哪个PHYB与拟南芥的PHYB或PHYD直系同源,后者是另一个B型光敏色素。相反,该分析表明,在茄科和十字花科彼此分化之后,一个PHYB基因在每个谱系中独立复制。因此,拟南芥PHYB突变体不能被严格认为与番茄三突变体等同,后者似乎在PHYB1位点发生了突变。同样,其他假定的PHYB突变体可能与拟南芥和番茄中描述的那些不等同。这种情况使确定“PHYB功能”的努力变得复杂,因为这个问题可能没有一个统一的答案。
