AI Article Synopsis
- The mtf-1 gene in C. elegans encodes a protein called matefin, which is a nuclear membrane protein with several specific functional domains and is essential for both embryogenesis and germ line maturation.
- Matefin colocalizes with Ce-lamin in the nucleus and is maternally deposited in all embryonic cells, but its expression becomes restricted to germ-line cells after midembryogenesis.
- Mutations in mtf-1 lead to embryonic development failure and defects in nuclear structure, indicating that matefin plays a critical role in both early development and the maintenance of germ line cells.
Article Abstract
Caenorhabditis elegans mtf-1 encodes matefin, which has a predicted SUN domain, a coiled-coil region, an anti-erbB-2 IgG domain, and two hydrophobic regions. We show that matefin is a nuclear membrane protein that colocalizes in vivo with Ce-lamin, the single nuclear lamin protein in C. elegans, and binds Ce-lamin in vitro but does not require Ce-lamin for its localization. Matefin is detected in all embryonic cells until midembryogenesis and thereafter only in germ-line cells. Embryonic matefin is maternally deposited, and matefin is the first nuclear membrane protein known to have germ line-restricted expression. Animals homozygous for an mtf-1 deletion allele show that matefin is essential for germ line maturation and survival. However, matefin is also required for embryogenesis because mtf-1 (RNAi) embryos die around the approximately 300-cell stage with defects in nuclear structure, DNA content, and chromatin morphology. Down-regulating matefin in mes-3 animals only slightly enhances embryonic lethality, and elimination of UNC-84, the only other SUN-domain gene in C. elegans, has no affect on mtf-1 (RNAi) animals. Thus, mtf-1 mediates a previously uncharacterized pathway(s) required for embryogenesis as well as germ line proliferation or survival.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC406453 | PMC |
| http://dx.doi.org/10.1073/pnas.0307880101 | DOI Listing |
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