Journal
BIOLOGICAL BULLETIN
Volume 242, Issue 1, Pages 40-47Publisher
UNIV CHICAGO PRESS
DOI: 10.1086/717926
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The process of microfragmenting coral, cutting one piece of coral into many small pieces, induces exponential growth. This study examines the growth and Cyclin-E expression of microfragments from nine genotypes of Orbicella faveolata coral. New polyp formation occurs on the microfragment edges, with varying growth rates among different genotypes. Cyclin-E expression is differentially expressed in O. faveolata polyps, with higher expression in edge tissue. The degree of increased expression varies among genotypes and positively correlates with growth rate, suggesting the potential for molecular selection in reef restoration.
Coral growth is critical to reef health, resilience under rapidly changing environmental conditions, and restoration efforts. Although fragmenting coral has been occurring for many years in an effort to restore reefs, recently it was discovered that microfragmenting, the process of cutting one piece of coral into many small pieces (about three to five polyps), induces exponential growth. Our study investigates the process by which microfragments of nine different genotypes from the stony coral species Orbicella faveolata grow and exhibit Cyclin-E expression. Microfragments were examined by using a high-powered dissecting microscope with a camera to document the precise areas of tissue exhibiting exponential growth. We found that new polyp formation occurs only on the microfragment edges and that edge polyp growth rates varied between different genotypes. We then extracted tissue from both the edge and the center of five genotypes for genetic analysis. We chose to analyze Cyclin-E expression because it is involved with stimulating mitotic division and is a conserved signaling pathway that is known to exist in Drosophila, mammals, and Cnidaria. Two primers for Cyclin-E were utilized to examine the level of expression for center and edge tissue. We found that Cyclin-E is expressed differentially between O. faveolata polyps, with a tendency for increased expression of the Cyclin-E in edge versus center tissue in each of five genotypes, although this result was not significant. Despite consistently higher levels of Cyclin-E expression within an organism's edge tissue, genotypes varied significantly in the degree of increased expression. This variation positively correlated with growth rate, suggesting the potential for molecular selection in aid of more rapid reef restoration. Future work will focus on deciphering the specific growth pathways involved in microfragmented coral growth and analyzing expression patterns in injured tissues.
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