K. Furukawa et al., GENESIS OF NEWT SPERM AXIAL FIBER - CDNA CLONING AND EXPRESSION OF A 29 KDA PROTEIN, A MAJOR COMPONENT OF THE AXIAL FIBER, DURING SPERMATOGENESIS, The International journal of developmental biology, 40(6), 1996, pp. 1109-1118
Newt sperm has a unique structure: the tail consists of axial fiber, u
ndulating membrane and flagellum. The genesis and chemical composition
of the axial fiber remain unknown. The axial fiber consists of about
10 major components, as evidenced by SDS-polyacrylamide gel electropho
resis. In order to clarify the biochemical properties of the component
s of the axial fiber and study the mechanism of axial fiber formation,
we focused our attention on a 29 kDa protein, the major constituent o
f the axial fiber. Immunofluorescent antibody technique showed that th
e 29 kDa protein was first expressed in the cytoplasm of early round s
permatids but was expressed on fibers in the periphery of the cyst in
late round spermatids. Double staining with tubulin antibody and 29 kD
a antibody showed that the fibers around the cysts in early round sper
matids were flagella alone but those in late round spermatids consiste
d of flagella and 29 kDa protein. These results indicated that 29 kDa
proteins are synthesized in the cytoplasm of round spermatids and ente
r the preformed flagella in late round and elongated spermatids. A cDN
A clone for 29 kDa protein was isolated. A database search could not f
ind any homologous clones, indicating that the 29 kDa protein is a new
one. Northern blot with the cDNA showed that mRNA for 29 kDa protein
was highly expressed in round spermatids but barely in primary spermat
ocytes, indicating that the mRNA for 29 kDa protein is haploid-express
ed.