hares 40% sequence identity with budding yeast Mad2 and rescues b

hares 40% sequence identity with budding yeast Mad2 and rescues benomyl sensitivity of the mad2 knockout strain in yeast, suggesting functional check point conservation. Like mdf 1, absence of MDF 2 leads to severe defects in larval and germ cell develop ment, suggesting essential roles in postembryonic devel opment. Unlike mdf 1, knockout strain of mdf 2 is viable. Our spatiotemporal analysis using extra chromosomal concatameric arrays revealed that the promoter of mdf 2 drives expression of the GFP reporter in hypodermis and seam cells, and some other cell types. We also constructed two chromosomal integrant pmdf 2,GFP strains, a multi copy stable line, and a stable line generated using the recently developed Mos1 mediated Single Copy Insertion method.

Using the multi copy stable line, we observed similar expression patterns in hypodermis and seam cells, and other cell types. MosSCI method, on the other hand, allows integration of transgenes as single copies at a few speci fic loci in C. elegans genome. Although the pmdf 2, GFP stable line generated using MosSCI had 10 �� lower intensity of the GFP expression than the multi copy Batimastat stable line, it further confirmed the expression patterns that we observed using a pmdf 2,GFP extrachromosomal transgene in postembryonic hypodermis and seam cells. To determine the consequence of absence of MDF 2 on normal seam cell development, we examined and quantified the number of seam cell nuclei in transgenic strains expressing SCM,GFP in the mdf 2 knockout, mdf 2, background using fluorescence microscopy.

The tm2910 deletion removes 864 nucleotides between intron 3 and exon 6 and is likely to be a null mutation. The SCM,GFP marker allows visualization of the number of seam cell nuclei and their morphology during development. Our analysis of young adult ani mals homozygous for mdf 2 revealed both qualitative and quantitative difference compared to wild type ani mals. While wild type adult her maphrodites usually contain 16 evenly spaced and aligned SCM,GFP nuclei on each side of the animals, mdf 2 adult hermaphrodites fre quently have non aligned seam cell nuclei clustered in one part of the body. Such clustering appears to be stochastic and each cluster can contain two, three, four or even more seam cell nuclei. More often, certain seam cells are missing, resulting in fewer than 16 SCM,GFP nuclei observed in wild type animals.

Collectively, in the absence of MDF 2, the number of SCM,GFP nuclei is significantly decreased in young adult worms from 16 to 14 in mdf 2 homo zygotes. Furthermore, using ajm 1,GFP apical junction marker, we observed disruptions of seam syncytia in mdf 2 homozygote adult worms, which further supports the importance of MDF 2 for proper seam cell development. During normal development, 10 precursor seam cells, H0 2, V1 6 and T, are formed during embryogenesis and are present at L1 after hatching. During L2, six of the 10 precursors undergo symmetrical division to produce additional seam cel

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