Soltis D E, Soltis P S, Clegg M T, Durbin M
Department of Botany, Washington State University, Pullman 99164.
Proc Natl Acad Sci U S A. 1990 Jun;87(12):4640-4. doi: 10.1073/pnas.87.12.4640.
Phylogenetic relationships are often poorly understood at higher taxonomic levels (family and above) despite intensive morphological analysis. An excellent example is Saxifragaceae sensu lato, which represents one of the major phylogenetic problems in angiosperms at higher taxonomic levels. As originally defined, the family is a heterogeneous assemblage of herbaceous and woody taxa comprising 15 subfamilies. Although more recent classifications fundamentally modified this scheme, little agreement exists regarding the circumscription, taxonomic rank, or relationships of these subfamilies. The recurrent discrepancies in taxonomic treatments of the Saxifragaceae prompted an investigation of the power of chloroplast gene sequences to resolve phylogenetic relationships within this family and between the Saxifragaceae and other major plant lineages. Sequence data from the gene rbcL (ribulose-1,5-bisphosphate carboxylase, large subunit) reveal that (i) Saxifragaceae sensu lato is at least paraphyletic, and probably polyphyletic, (ii) the genera Parnassia and Brexia are only distantly related to other members of Saxifragaceae, and (iii) representatives of the Solanaceae (subclass Asteridae) appear more closely related to Saxifragaceae (subclass Rosidase) than traditionally maintained. These data illustrate the value of chloroplast gene sequence data in resolving genetic, and hence phylogenetic, relationships among members of the most taxonomically complex groups.
尽管进行了深入的形态学分析,但在较高的分类级别(科级及以上),系统发育关系往往仍未得到很好的理解。一个很好的例子是广义虎耳草科,它代表了被子植物在较高分类级别上的主要系统发育问题之一。按照最初的定义,该科是一个由草本和木本类群组成的异质集合,包含15个亚科。尽管最近的分类从根本上修改了这个分类方案,但对于这些亚科的界定范围、分类等级或相互关系,几乎没有达成共识。虎耳草科分类处理中反复出现的差异促使人们研究叶绿体基因序列在解决该科内部以及虎耳草科与其他主要植物谱系之间系统发育关系方面的作用。来自rbcL(核酮糖-1,5-二磷酸羧化酶,大亚基)基因的序列数据表明:(i)广义虎耳草科至少是并系的,可能是多系的;(ii)梅花草属和布雷克草属与虎耳草科的其他成员仅存在远缘关系;(iii)茄科(菊亚纲)的代表与虎耳草科(蔷薇亚纲)的关系似乎比传统观点认为的更为密切。这些数据说明了叶绿体基因序列数据在解决分类学上最复杂类群成员之间的遗传关系以及由此得出的系统发育关系方面的价值。