Interallelic Complementation at the Drosophila melanogaster gastrulation defective Locus Defines Discrete Functional Domains of the Protein

Interallelic Complementation at the Drosophila melanogaster gastrulation defective Locus Defines Discrete Functional Domains of the Protein

Gregory Ponomareff^a, Heidi Giordano^c, Yvonne DeLotto^b, and Robert DeLotto^b
^a Cornell Graduate School of Medicine, New York, New York 10021,
^b Department of Genetics, University of Copenhagen, Copenhagen K, Denmark
^c Tularik, South San Francisco, California 94080

Corresponding author: Robert DeLotto, Department of Genetics, University of Copenhagen, Copenhagen K, Denmark., rdelotto{at}biobase.dk (E-mail)

Communicating editor: A. J. LOPEZ

The gastrulation defective (gd) locus encodes a novel serineprotease that is involved in specifying the dorsal-ventral axisduring embryonic development. Mutant alleles of gd have beenclassified into three complementation groups, two of which exhibitstrong interallelic (intragenic) complementation. To understandthe molecular basis of this interallelic complementation, weexamined the complementation behavior of additional mutant allelesand sequenced alleles in all complementation groups. The datasuggest that there are two discrete functional domains of Gd.A two-domain model of Gd suggesting that it is structurallysimilar to mammalian complement factors C2 and B has been previouslyproposed. To test this model we performed SP6 RNA microinjectionto assay for activities associated with various domains of Gd.The microinjection data are consistent with the complement factorC2/B-like model. Site-directed mutagenesis suggests that Gdfunctions as a serine protease. An allele-specific interactionbetween an autoactivating form of Snake (Snk) and a gd allelealtered in the protease domain suggests that Gd directly activatesSnk in a protease activation cascade. We propose a model inwhich Gd is expressed during late oogenesis and bound withinthe perivitelline space but only becomes catalytically activeduring embryogenesis.

This article has been cited by other articles:

A. Goldraij, L. J. Beamer, and J. C. Polacco
Interallelic Complementation at the Ubiquitous Urease Coding Locus of Soybean
Plant Physiology, August 1, 2003; 132(4): 1801 - 1810.
[Abstract] [Full Text] [PDF]

T. Rose, E. K. LeMosy, A. M. Cantwell, D. Banerjee-Roy, J. B. Skeath, and E. Di Cera
Three-dimensional Models of Proteases Involved in Patterning of the Drosophila Embryo. CRUCIAL ROLE OF PREDICTED CATION BINDING SITES
J. Biol. Chem., March 21, 2003; 278(13): 11320 - 11330.
[Abstract] [Full Text] [PDF]

				T. Rose, E. K. LeMosy, A. M. Cantwell, D. Banerjee-Roy, J. B. Skeath, and E. Di Cera Three-dimensional Models of Proteases Involved in Patterning of the Drosophila Embryo. CRUCIAL ROLE OF PREDICTED CATION BINDING SITES J. Biol. Chem., March 21, 2003; 278(13): 11320 - 11330. [Abstract] [Full Text] [PDF]