ADP-ribosyl cyclases regulate early development of the sea urchin.

Messenger (Los Angeles, Calif. : Print) Pub Date : 2016-06-01 DOI:10.1166/msr.2016.1052
Latha Ramakrishnan, Kevin Uhlinger, Leslie Dale, Amro Hamdoun, Sandip Patel
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Abstract

ADP-ribosyl cyclases are multifunctional enzymes involved in the metabolism of nucleotide derivatives necessary for Ca2+ signalling such as cADPR and NAADP. Although Ca2+ signalling is a critical regulator of early development, little is known of the role of ADP-ribosyl cyclases during embryogenesis. Here we analyze the expression, activity and function of ADP-ribosyl cyclases in the embryo of the sea urchin - a key organism for study of both Ca2+ signalling and embryonic development. ADP-ribosyl cyclase isoforms (SpARC1-4) showed unique changes in expression during early development. These changes were associated with an increase in the ratio of cADPR:NAADP production. Over-expression of SpARC4 (a preferential cyclase) disrupted gastrulation. Our data highlight the importance of ADP-ribosyl cyclases during embryogenesis.

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ADP-ribosyl cyclases调控海胆的早期发育。
ADP-ribosyl cyclases 是一种多功能酶,参与 Ca2+ 信号传导所需的核苷酸衍生物(如 cADPR 和 NAADP)的代谢。虽然 Ca2+ 信号是早期发育的关键调节因子,但人们对 ADP-ribosyl cyclases 在胚胎发生过程中的作用知之甚少。海胆是研究 Ca2+ 信号传导和胚胎发育的关键生物,在这里我们分析了 ADP-ribosyl 环酶在海胆胚胎中的表达、活性和功能。ADP-核糖基环化酶同工酶(SpARC1-4)在早期发育过程中表现出独特的表达变化。这些变化与 cADPR:NAADP 生成比例的增加有关。过度表达 SpARC4(一种优先环化酶)会破坏胃的形成。我们的数据强调了ADP-核糖基环化酶在胚胎发生过程中的重要性。
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Messenger (Los Angeles, Calif. : Print)
Messenger (Los Angeles, Calif. : Print)
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