The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum
Alexandrium minutum is a saxitoxins-producring marine dinoflagellate that responsible for paralytic shellfish poisoning (PSP). It is widely distributed in the tropical and temperate waters with various hydrographic regimes. The physiological responses of this species to various macronutrients have...
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my.um.eprints.202562019-02-08T03:34:17Z http://eprints.um.edu.my/20256/ The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum Hii, Kieng Soon Kon, N.F. Lim, P.T. Leaw, Chui Pin Q Science (General) QH301 Biology Alexandrium minutum is a saxitoxins-producring marine dinoflagellate that responsible for paralytic shellfish poisoning (PSP). It is widely distributed in the tropical and temperate waters with various hydrographic regimes. The physiological responses of this species to various macronutrients have been studied intensively, but little is known about the regulating mechanism of nutrient uptakes and their roles in saxitoxin production. The effect of varying levels of nitrogen and phosphorous nutrition on the transcriptional responses of a tropical ribotype of A. minutum was investigated in a laboratory setting. The nutrient-related genes, ammonium transporter (AmAmt1), nitrate transporter (AmNrt2), phosphate transporter (AmPiPT1), nitrate reductase (AmNas), glutamine synthetase (AmGSIII) and carbarmoyl phosphate synthase (AmCPSIII) were assembled from Sequence Read Archive (SRA) data set, and later used in the differential gene expression analyzed by qPCR. The results showed that, AmAmt1 was suppressed in excess ammonium-grown culture; conversely AmNrt2 and AmNas were induced. Gene expression of AmAmt1, AmNrt2, AmNas, AmGSIII, AmCPSII and AmPiPT1 was highly induced under P-deficient condition, suggesting that the cells are scavenging to take up nutrients in the P-stress condition. Gene expression of AmCPSII was well correlated with the toxin cell quota, suggesting the gene might involve in arginine metabolism and simultaneously increased the toxin production. Nonetheless, AmGSIII expression might play a role in the stress adaption towards high toxic levels of ammonium ambient by producing toxins as a counteracting response. The results of this study have provided better insights into the eco-physiology of A. minutum in relation to the toxin production and its adaptive strategies in unfavorable environments. 2018 Conference or Workshop Item PeerReviewed text en http://eprints.um.edu.my/20256/1/Pages%20from%20ICHA%202018_Abstract%20Book-2.pdf Hii, Kieng Soon and Kon, N.F. and Lim, P.T. and Leaw, Chui Pin (2018) The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum. In: 18th International Conference on Harmful Algae (ICHA 2018), 21-26 October 2018, Nantes, France. https://www.icha2018.com/medias/content/files/ICHA_2018_Abstract_Book_v7.pdf |
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Q Science (General) QH301 Biology Hii, Kieng Soon Kon, N.F. Lim, P.T. Leaw, Chui Pin The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum |
| description |
Alexandrium minutum is a saxitoxins-producring marine dinoflagellate that responsible for paralytic shellfish
poisoning (PSP). It is widely distributed in the tropical and temperate waters with various hydrographic regimes. The
physiological responses of this species to various macronutrients have been studied intensively, but little is known about the regulating mechanism of nutrient uptakes and their roles in saxitoxin production. The effect of varying levels of nitrogen and phosphorous nutrition on the transcriptional responses of a tropical ribotype of A. minutum was investigated in a laboratory setting. The nutrient-related genes, ammonium transporter (AmAmt1), nitrate transporter (AmNrt2), phosphate transporter (AmPiPT1), nitrate reductase (AmNas), glutamine synthetase (AmGSIII) and carbarmoyl phosphate synthase (AmCPSIII) were assembled from Sequence Read Archive (SRA) data set, and later used in the differential gene expression analyzed by qPCR. The results showed that, AmAmt1 was suppressed in excess ammonium-grown culture; conversely AmNrt2 and AmNas were induced. Gene expression of AmAmt1, AmNrt2, AmNas, AmGSIII, AmCPSII and AmPiPT1 was highly induced under P-deficient condition, suggesting that the cells are
scavenging to take up nutrients in the P-stress condition. Gene expression of AmCPSII was well correlated with the
toxin cell quota, suggesting the gene might involve in arginine metabolism and simultaneously increased the toxin
production. Nonetheless, AmGSIII expression might play a role in the stress adaption towards high toxic levels of
ammonium ambient by producing toxins as a counteracting response. The results of this study have provided better
insights into the eco-physiology of A. minutum in relation to the toxin production and its adaptive strategies in
unfavorable environments. |
| format |
Conference or Workshop Item |
| author |
Hii, Kieng Soon Kon, N.F. Lim, P.T. Leaw, Chui Pin |
| author_facet |
Hii, Kieng Soon Kon, N.F. Lim, P.T. Leaw, Chui Pin |
| author_sort |
Hii, Kieng Soon |
| title |
The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum |
| title_short |
The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum |
| title_full |
The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum |
| title_fullStr |
The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum |
| title_full_unstemmed |
The role of nutrient-related genes in understanding the saxitoxin production of Alexandrium minutum |
| title_sort |
role of nutrient-related genes in understanding the saxitoxin production of alexandrium minutum |
| publishDate |
2018 |
| url |
http://eprints.um.edu.my/20256/1/Pages%20from%20ICHA%202018_Abstract%20Book-2.pdf http://eprints.um.edu.my/20256/ https://www.icha2018.com/medias/content/files/ICHA_2018_Abstract_Book_v7.pdf |
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