Netter S, Fauvarque M O, Diez del Corral R, Dura J M, Coen D
Embryologie Moléculaire et Expérimentale-Centre National de la Recherche Scientifique/Unité de Recherche Associée 2227, Université Paris Sud, 91405 Orsay Cedex, France.
Genetics. 1998 May;149(1):257-75. doi: 10.1093/genetics/149.1.257.
We used the white gene as an enhancer trap and reporter of chromatin structure. We collected white+ transgene insertions presenting a peculiar pigmentation pattern in the eye: white expression is restricted to the dorsal half of the eye, with a clear-cut dorsal/ventral (D/V) border. This D/V pattern is stable and heritable, indicating that phenotypic expression of the white reporter reflects positional information in the developing eye. Localization of these transgenes led us to identify a unique genomic region encompassing 140 kb in 69D1-3 subject to this D/V effect. This region contains at least three closely related homeobox-containing genes that are constituents of the iroquois complex (IRO-C). IRO-C genes are coordinately regulated and implicated in similar developmental processes. Expression of these genes in the eye is regulated by the products of the Polycomb-group (Pc-G) and trithorax-group (trx-G) genes but is not modified by classical modifiers of position-effect variegation. Our results, together with the report of a Pc-G binding site in 69D, suggest that we have identified a novel cluster of target genes for the Pc-G and trx-G products. We thus propose that ventral silencing of the whole IRO-C in the eye occurs at the level of chromatin structure in a manner similar to that of the homeotic gene complexes, perhaps by local compaction of the region into a heterochromatin-like structure involving the Pc-G products.
我们使用白色基因作为染色质结构的增强子捕获和报告基因。我们收集了在眼睛中呈现特殊色素沉着模式的白色+转基因插入:白色基因的表达局限于眼睛的背侧半部,具有清晰的背/腹(D/V)边界。这种D/V模式是稳定且可遗传的,表明白色报告基因的表型表达反映了发育中眼睛的位置信息。这些转基因的定位使我们在69D1-3中鉴定出一个包含140 kb的独特基因组区域,该区域受这种D/V效应影响。该区域包含至少三个紧密相关的含同源框基因,它们是伊洛魁族复合体(IRO-C)的组成部分。IRO-C基因受到协调调控,并参与相似的发育过程。这些基因在眼睛中的表达受多梳家族(Pc-G)和三胸家族(trx-G)基因产物的调控,但不受位置效应斑驳的经典修饰因子影响。我们的结果,连同在69D中一个Pc-G结合位点的报告,表明我们已经鉴定出Pc-G和trx-G产物的一个新的靶基因簇。因此,我们提出眼睛中整个IRO-C的腹侧沉默发生在染色质结构水平,其方式类似于同源异型基因复合体,可能是通过将该区域局部压缩成涉及Pc-G产物的异染色质样结构。