Wagner Gunte P, Amemiya Chris, Ruddle Frank
Yale University, New Haven, CT 06520-8106, USA.
Proc Natl Acad Sci U S A. 2003 Dec 9;100(25):14603-6. doi: 10.1073/pnas.2536656100. Epub 2003 Nov 24.
Hox genes play a key role in animal body plan development. These genes tend to occur in tightly linked clusters in the genome. Vertebrates and invertebrates differ in their Hox cluster number, with vertebrates having multiple clusters and invertebrates usually having only one. Recent evidence shows that vertebrate Hox clusters are structurally more constrained than invertebrate Hox clusters; they exclude transposable elements, do not undergo tandem duplications, and conserve their intergenic distances and gene order. These constraints are only relaxed after a cluster duplication. In contrast, invertebrate Hox clusters are structurally more plastic; tandem duplications are common, the linkage of Hox genes can change quickly, or they can lose their structural integrity completely. We propose that the constraints on vertebrate Hox cluster structure lead to an association between the retention of duplicated Hox clusters and adaptive radiations. After a duplication the constraints on Hox cluster structure are temporarily lifted, which opens a window of evolvability for the Hox clusters. If this window of evolvability coincides with an adaptive radiation, chances are that a modified Hox cluster becomes recruited in an evolutionary novelty and then both copies of duplicated Hox clusters are retained.
Hox基因在动物体轴发育中起关键作用。这些基因在基因组中往往紧密连锁成簇存在。脊椎动物和无脊椎动物的Hox簇数量不同,脊椎动物有多个簇,而无脊椎动物通常只有一个。最近的证据表明,脊椎动物的Hox簇在结构上比无脊椎动物的Hox簇受到更多限制;它们排除转座元件,不发生串联重复,并保留其基因间距离和基因顺序。这些限制只有在簇重复后才会放松。相比之下,无脊椎动物的Hox簇在结构上更具可塑性;串联重复很常见,Hox基因的连锁关系可以迅速改变,或者它们可以完全失去结构完整性。我们提出,对脊椎动物Hox簇结构的限制导致了重复的Hox簇的保留与适应性辐射之间的关联。重复后,对Hox簇结构的限制会暂时解除,这为Hox簇打开了一个可进化性的窗口。如果这个可进化性窗口与适应性辐射同时出现,那么经过修饰的Hox簇很可能会被纳入一种进化新特征中,然后重复的Hox簇的两个拷贝都会被保留下来。