Pigmentation patterning has long interested biologists, integrating topics in ecology, development, genetics, and physiology. Wild-type neonatal larvae of the silkworm,
Bombyx mori
, are completely black. By contrast, the epidermis and head of larvae of the homozygous recessive sex-linked chocolate (
sch
) mutant are reddish brown. When incubated at 30 °C, mutants with the
sch
allele fail to hatch; moreover, homozygous mutants carrying the allele
sch lethal
(
sch
l
) do not hatch even at room temperature (25 °C). By positional cloning, we narrowed a region containing
sch
to 239,622 bp on chromosome 1 using 4,501 backcross (BC1) individuals. Based on expression analyses, the best
sch
candidate gene was shown to be tyrosine hydroxylase (
BmTh
).
BmTh
coding sequences were identical among
sch
,
sch
l
, and wild-type. However, in
sch
the ∼70-kb sequence was replaced with ∼4.6 kb of a Tc1-mariner type transposon located ∼6 kb upstream of
BmTh
, and in
sch
l
, a large fragment of an L1Bm retrotransposon was inserted just in front of the transcription start site of
BmTh
. In both cases, we observed a drastic reduction of
BmTh
expression. Use of RNAi with
BmTh
prevented pigmentation and hatching, and feeding of a tyrosine hydroxylase inhibitor also suppressed larval pigmentation in the wild-type strain,
pnd
+
and in a
pS
(black-striped) heterozygote. Feeding L-dopa to
sch
neonate larvae rescued the mutant phenotype from chocolate to black. Our results indicate the
BmTh
gene is responsible for the
sch
mutation, which plays an important role in melanin synthesis producing neonatal larval color.
Bombyx mori densovirus type 2 (BmDNV-2), a parvo-like virus, replicates only in midgut columnar cells and causes fatal disease. The resistance expressed in some silkworm strains against the virus is determined by a single gene, nsd-2, which is characterized as nonsusceptibility irrespective of the viral dose. However, the responsible gene has been unknown. We isolated the nsd-2 gene by positional cloning. The virus resistance is caused by a 6-kb deletion in the ORF of a gene encoding a 12-pass transmembrane protein, a member of an amino acid transporter family, and expressed only in midgut. Germ-line transformation with a wildtype transgene expressed in the midgut restores susceptibility, showing that the defective membrane protein is responsible for resistance. Cumulatively, our data show that the membrane protein is a functional receptor for BmDNV-2. This is a previously undescribed report of positional cloning of a mutant gene in Bombyx and isolation of an absolute virus resistance gene in insects.virus resistance ͉ positional cloning ͉ transgenesis
The larval head cuticle and anal plates of the silkworm mutant cheek and tail spot (cts) have chocolate-colored spots, unlike the entirely white appearance of the wild-type (WT) strain. We report the identification and characterization of the gene responsible for the cts mutation. Positional cloning revealed a cts candidate on chromosome 16, designated BmMFS, based on the high similarity of the deduced amino acid sequence between the candidate gene from the WT strain and the major facilitator superfamily (MFS) protein. BmMFS likely encodes a membrane protein with 11 putative transmembrane domains, while the putative structure deduced from the cts-type allele possesses only 10-pass transmembrane domains owing to a deletion in its coding region. Quantitative RT-PCR analysis showed that BmMFS mRNA was strongly expressed in the integument of the head and tail, where the cts phenotype is observed; expression markedly increased at the molting and newly ecdysed stages. These results indicate that the novel BmMFS gene is cts and the membrane structure of its protein accounts for the cts phenotype. These expression profiles and the cts phenotype are quite similar to those of melanin-related genes, such as Bmyellow-e and Bm-iAANAT, suggesting that BmMFS is involved in the melanin synthesis pathway.
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