In vitro analysis of Bombyx mori early chorion gene regulation: stage specific expression involves interactions with C/EBP-like and GATA factors.

This is the first attempt to identify regulatory elements that are involved in early choriogenesis of the silkworm Bombyx mori. A new cis element in the promoter region of five early chorion genes was identified. The consensus sequence of this element matches the consensus of the C/EBP DNA binding site. Moreover, this sequence interacts with a 70 kD protein (pX2) present in follicular nuclear extracts and complex formation exhibits early developmental specificity. There is strong evidence that this factor belongs to the C/EBP family. Surprisingly, the same protein binds with the same developmental specificity to a similar sequence of a late chorion gene promoter, which has been previously defined as the binding site for a putative late specific factor, BCFII. The possibility that pX2 and BCFII are isoforms or modifications of the same protein factor, which is presumably able to bind to the highly similar sequence elements of both early and late genes, is discussed. A hypothesis involving protein-protein interactions between C/EBP (pX2/BCFII) and GATA during choriogenesis is presented to explain the temporal specificity of chorion genes.

The biolistic method as a tool for testing the differential activity of putative silkmoth chorion gene promoters.

Bombyx mori unpaired early chorion gene copies 6F6.1,.2 and.3 are exceptions to the typical organization and distribution pattern of known early ErA/ErB, middle A/B and late HcA/HcB divergently transcribed gene pairs. Contrary to such pairs, the boundaries of the 6F6 regulatory sequences are not easily defined; moreover, they share common sequence elements with the regulatory sequences of middle and late genes. In order to perform a functional study of the tissue and temporal specificity of the 6F6 putative promoter region, we decided to apply biolistics. In the present work, use of a region from the 6F6.2 5' untranslated sequence, spanning nucleotides -138 to the cap site, gave an expected expression pattern of a lacZ reporter gene. Temporal specificity was further verified by control experiments using the cloned intergenic sequence of the late gene pair HcA/B.12, which resulted in lacZ expression in late choriogenic follicles. At present, despite the recent successful germinal transgenesis of Bombyx mori, the biolistic transient expression system seems to be the most rapid technique to pursue the functional study of the promoter region of early chorion genes, including the three unconventional early 6F6 genes.

Sequence analysis of a small early chorion gene subfamily interspersed within the late gene locus in Bombyx mori.

A comprehensive sequence analysis of three early chorion genes (6F6.1, 6F6.2, 6F6.3) which form a small subfamily is presented. Two main features characterize this subfamily: (1) the 6F6 gene copies are beta-branch genes and, unlike typical chorion genes which are organized in divergent gene pairs, they are unpaired, and (2) they are not clustered in genetic locus Ch3 but are dispersed in Ch1-2, which is about 3 to 4 centiMorgans away and contains middle and late chorion genes. Sequence comparisons show that members of this subfamily exhibit high identity values in their major coding region (94-96%) and that similarities also extend, but to a lesser degree, into their noncoding regions. The putative 6F6 promoter regions have no significant similarities with the corresponding regions of other early beta-genes but quite surprisingly share common elements with middle and late genes. The main difference among the 6F6 gene introns is the presence of inserted sequences: the insert into 6F6.2 ("IR"; 248 bp) is flanked by a 102-103-bp inverted repeat, while those into 6F6.1 ("FIB"; 184 bp) and 6F6.3 ("HOPE"; 951 bp) are carried by a partial Bm1 element. HOPE has features of a non-LTR retrotransposable element. Preliminary experiments indicate that the copy number of IR and HOPE in the Bombyx mori genome is about 5,000 and 20,000, respectively. The great similarity of 6F6 genes cannot be accounted for by selective pressure but rather appears to be the result of gene-conversion-like events, which are supposed to operate frequently in middle and late chorion genes but not in other known early beta-genes. Using the relative position and orientation of the 6F6 gene copies, it is possible to propose an evolutionary scheme for the formation of chorion locus Ch1-2.