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51.
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M Q Martindale 《Developmental biology》1986,118(2):556-576
Ctenophores are biradially symmetrical animals. The body is composed of four identical quadrants which are organized along an oral-aboral axis. Most species have eight comb rows, two tentacles, and an apical organ (located on the aboral surface). During embryogenesis there is a fixed pattern of cleavage, a precocious specification of blastomere developmental potential, and an inability to regulate for portions of the embryo that have been removed. When blastomeres are separated at the two-cell stage each blastomere develops into a "half-animal" with four comb rows, one tentacle, and half an apical organ. In contrast, adult ctenophores regenerate readily. When an adult ctenophore is cut in half to produce "half-animals," in most cases each half regenerates the missing half. In some cases, however, bisected animals remain as "half-animals" which repair the wound site but do not replace all of the missing structures. When animals are cut in half along the tentacular or esophageal axis at different stages of embryogenesis a transition period is detected when the capacity for adult regeneration begins. This transition occurs at the time when the formation of the apical organ is complete and comb row function becomes coordinated. Embryos bisected prior to this time remain as "half-animals" even after growing to large reproductive sizes, while animals bisected after the transition period usually regenerate the missing structures within 2-3 days. When adult "half-animals" (produced by bisection either before or after the transition period) are cut into "quarter-pieces," the pieces regenerate to form either "half-animals" or whole animals. Thus, "half-animals" produced prior to the transition period--although they failed to undergo embryonic regulation--have not irreversibly lost the capacity to form whole animals if challenged to regenerate during adult stages. When aboral blastomeres destined to form the apical organ, tentacles, and comb rows are removed from early cleavage stages (prior to the transition period), the embryo does not form these structures at the appropriate time. However, the resulting deficient adults spontaneously form these structures from remaining blastomere lineages soon after hatching. These experiments suggest that as long as some quadrant-specific cells of the oral pole are present at the time of the transition period, the structures of that quadrant will be spontaneously replaced during the adult period.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
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Philip J. Uren Dat T. Vo Patricia Rosa de Araujo Rebecca P?tschke Suzanne C. Burns Emad Bahrami-Samani Mei Qiao Raquel de Sousa Abreu Helder I. Nakaya Bruna R. Correa Caspar Kühn?l Jernej Ule Jennifer L. Martindale Kotb Abdelmohsen Myriam Gorospe Andrew D. Smith Luiz O. F. Penalva 《Molecular and cellular biology》2015,35(17):2965-2978
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Jen-Hao Yang Ming-Wen Chang Dimitrios Tsitsipatis Xiaoling Yang Jennifer
L Martindale Rachel Munk Aiwu Cheng Elizabeth Izydore Poonam R Pandey Yulan Piao Krystyna Mazan-Mamczarz Supriyo De Kotb Abdelmohsen Myriam Gorospe 《Nucleic acids research》2022,50(12):7115
Long noncoding RNAs (lncRNAs) and microRNAs (miRNAs) modulate gene expression programs in physiology and disease. Here, we report a noncoding RNA regulatory network that modulates myoblast fusion into multinucleated myotubes, a process that occurs during muscle development and muscle regeneration after injury. In early stages of human myogenesis, the levels of lncRNA OIP5-AS1 increased, while the levels of miR-7 decreased. Moreover, OIP5-AS1 bound and induced miR-7 decay via target RNA-directed miRNA decay; accordingly, loss of OIP5-AS1 attenuated, while antagonizing miR-7 accelerated, myotube formation. We found that the OIP5-AS1-mediated miR-7 degradation promoted myoblast fusion, as it derepressed the miR-7 target MYMX mRNA, which encodes the fusogenic protein myomixer (MYMX). Remarkably, an oligonucleotide site blocker interfered with the OIP5-AS1-directed miR-7 degradation, allowing miR-7 to accumulate, lowering MYMX production and suppressing myotube formation. These results highlight a mechanism whereby lncRNA OIP5-AS1-mediated miR-7 decay promotes myotube formation by stimulating a myogenic fusion program. 相似文献
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We describe a method for producing specific PCR primers directly from PCR product, bypassing the usual need to know the primer sequence. Lack of abundance of primers derived from a PCR product is compensated for by the incorporation of an arbitrary 5'TAG sequence which acts as a surrogate template target for the bulk amplification phase. We use the technique to amplify clonospecific rearranged immunoglobulin genes, which have applications as markers of lymphoid neoplasms for tracing the success of therapy. The principle may have wider application wherever conserved and variable regions of DNA are juxtaposed. 相似文献