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Fig. 7. srt encodes an evolutionarily conserved multi-transmembrane
protein. (A) Injection of srt mRNA into non-paternally
rescued germline clone embryos rescues the segmentation defect (right). The
buffer-injected control shows the null srt phenotype. (B)
Injection of a 543 bp srt dsRNA into GFP+ paternally
rescued srt embryos yields a cuticle phenotype (right) almost as
severe as the buffer-injected non-paternal rescued embryo in A and
Fig. 1C. (C) The
srt genomic region located at 68A9 is a gene-dense region. The
srt ORF is flanked closely by Alg10 (left) and shares its 5 '
proximal region with CG7616 (right;
www.flybase.org).
The srt ORF is composed of two or three exons to yield two splice
variants. (D) One possible topological model for the protein encoded by
srt: the luminal/extracellular region, above; the cytoplasmic region,
below. Four putative transmembrane stretches are shown. The 7E4
mutation in srt results in a nonsense mutation in the fourth
transmembrane span in our model. The location of the splice variant in the
intracellular loop and possible sites of N-linked glycosylation are shown.
(E) Sequence alignment of Drosophila srt B isoform (NCBI
accession: NP_729681) with its homologs from C. elegans
(NP_001022275), X. laevis (AAH81130) and human (NP_079187). The four
transmembrane domains shown in D are underlined in black. Four possible
additional transmembrane domains are underlined in gray. The asterisk under
the last transmembrane marks the location of the srt7E4
mutation.
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