Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon

Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon

A Dual-Domain Carbonic Anhydrase (DDCA) had been sequenced and characterized from the ctenidia (gills) of the giant clam, Tridacna squamosa, which lives in symbiosis with zooxanthellae. DDCA was expressed predominantly in the ctenidium. The complete cDNA coding sequence of DDCA from T. squamosa comp...

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Main Authors: Clarissa Z. Y. Koh, Kum C. Hiong, Celine Y. L. Choo, Mel V. Boo, Wai P. Wong, Shit F. Chew, Mei L. Neo, Yuen K. Ip
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-03-01
Series:Frontiers in Physiology
Subjects:
bicarbonate
carbon dioxide
calcification
Symbiodinium
symbiosis
tridacnid
Online Access:http://journal.frontiersin.org/article/10.3389/fphys.2018.00281/full
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spelling doaj-fd6201c84c2d4c7f91b0ff6e8d05addb2020-11-25T00:36:01ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2018-03-01910.3389/fphys.2018.00281320174Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic CarbonClarissa Z. Y. Koh0Kum C. Hiong1Celine Y. L. Choo2Mel V. Boo3Wai P. Wong4Shit F. Chew5Mei L. Neo6Yuen K. Ip7Yuen K. Ip8Department of Biological Sciences, National University of Singapore, Singapore, SingaporeDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeNatural Sciences and Science Education, National Institute of Education, Nanyang Technological University, Singapore, SingaporeSt. John's Island National Marine Laboratory, National University of Singapore, Singapore, SingaporeDepartment of Biological Sciences, National University of Singapore, Singapore, SingaporeThe Tropical Marine Science Institute, National University of Singapore, Singapore, SingaporeA Dual-Domain Carbonic Anhydrase (DDCA) had been sequenced and characterized from the ctenidia (gills) of the giant clam, Tridacna squamosa, which lives in symbiosis with zooxanthellae. DDCA was expressed predominantly in the ctenidium. The complete cDNA coding sequence of DDCA from T. squamosa comprised 1,803 bp, encoding a protein of 601 amino acids and 66.7 kDa. The deduced DDCA sequence contained two distinct α-CA domains, each with a specific catalytic site. It had a high sequence similarity with tgCA from Tridacna gigas. In T. squamosa, the DDCA was localized apically in certain epithelial cells near the base of the ctenidial filament and the epithelial cells surrounding the tertiary water channels. Due to the presence of two transmembrane regions in the DDCA, one of the Zn2+-containing active sites could be located externally and the other one inside the cell. These results denote that the ctenidial DDCA was positioned to dehydrate HCO3- to CO2 in seawater, and to hydrate the CO2 that had permeated the apical membrane back to HCO3- in the cytoplasm. During insolation, the host clam needs to increase the uptake of inorganic carbon from the ambient seawater to benefit the symbiotic zooxanthellae; only then, can the symbionts conduct photosynthesis and share the photosynthates with the host. Indeed, the transcript and protein levels of DDCA/DDCA in the ctenidium of T. squamosa increased significantly after 6 and 12 h of exposure to light, respectively, denoting that DDCA could participate in the light-enhanced uptake and assimilation of exogenous inorganic carbon.http://journal.frontiersin.org/article/10.3389/fphys.2018.00281/fullbicarbonatecarbon dioxidecalcificationSymbiodiniumsymbiosistridacnid
collection DOAJ
language English
format Article
sources DOAJ
author Clarissa Z. Y. Koh
Kum C. Hiong
Celine Y. L. Choo
Mel V. Boo
Wai P. Wong
Shit F. Chew
Mei L. Neo
Yuen K. Ip
Yuen K. Ip
spellingShingle Clarissa Z. Y. Koh
Kum C. Hiong
Celine Y. L. Choo
Mel V. Boo
Wai P. Wong
Shit F. Chew
Mei L. Neo
Yuen K. Ip
Yuen K. Ip
Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon
Frontiers in Physiology
bicarbonate
carbon dioxide
calcification
Symbiodinium
symbiosis
tridacnid
author_facet Clarissa Z. Y. Koh
Kum C. Hiong
Celine Y. L. Choo
Mel V. Boo
Wai P. Wong
Shit F. Chew
Mei L. Neo
Yuen K. Ip
Yuen K. Ip
author_sort Clarissa Z. Y. Koh
title Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon
title_short Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon
title_full Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon
title_fullStr Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon
title_full_unstemmed Molecular Characterization of a Dual Domain Carbonic Anhydrase From the Ctenidium of the Giant Clam, Tridacna squamosa, and Its Expression Levels After Light Exposure, Cellular Localization, and Possible Role in the Uptake of Exogenous Inorganic Carbon
title_sort molecular characterization of a dual domain carbonic anhydrase from the ctenidium of the giant clam, tridacna squamosa, and its expression levels after light exposure, cellular localization, and possible role in the uptake of exogenous inorganic carbon
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2018-03-01
description A Dual-Domain Carbonic Anhydrase (DDCA) had been sequenced and characterized from the ctenidia (gills) of the giant clam, Tridacna squamosa, which lives in symbiosis with zooxanthellae. DDCA was expressed predominantly in the ctenidium. The complete cDNA coding sequence of DDCA from T. squamosa comprised 1,803 bp, encoding a protein of 601 amino acids and 66.7 kDa. The deduced DDCA sequence contained two distinct α-CA domains, each with a specific catalytic site. It had a high sequence similarity with tgCA from Tridacna gigas. In T. squamosa, the DDCA was localized apically in certain epithelial cells near the base of the ctenidial filament and the epithelial cells surrounding the tertiary water channels. Due to the presence of two transmembrane regions in the DDCA, one of the Zn2+-containing active sites could be located externally and the other one inside the cell. These results denote that the ctenidial DDCA was positioned to dehydrate HCO3- to CO2 in seawater, and to hydrate the CO2 that had permeated the apical membrane back to HCO3- in the cytoplasm. During insolation, the host clam needs to increase the uptake of inorganic carbon from the ambient seawater to benefit the symbiotic zooxanthellae; only then, can the symbionts conduct photosynthesis and share the photosynthates with the host. Indeed, the transcript and protein levels of DDCA/DDCA in the ctenidium of T. squamosa increased significantly after 6 and 12 h of exposure to light, respectively, denoting that DDCA could participate in the light-enhanced uptake and assimilation of exogenous inorganic carbon.
topic bicarbonate
carbon dioxide
calcification
Symbiodinium
symbiosis
tridacnid
url http://journal.frontiersin.org/article/10.3389/fphys.2018.00281/full
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