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Start Over Author "Wang, Guangce" Journal journal of phycology
27 results on '"Wang, Guangce"'

1. Overexpression of MPV17/PMP22‐like protein 2 gene decreases production of radical oxygen species in Pyropia yezoensis (Bangiales, Rhodophyta).

Author

Li, Yujie, Yang, Jiali, Sun, Zhenjie, Niu, Jianfeng, and Wang, Guangce

Subjects
PROTEIN overexpression, OXIDANT status, PEROXISOMES, REACTIVE oxygen species, OXIDATIVE stress, RESPIRATION
Abstract

The northward shift of Pyropia yezoensis aquaculture required the breeding of germplasms with tolerance to the oxidative stress due to the high light conditions of the North Yellow Sea area. The MPV17/PMP22 family proteins were identified as a molecule related to reactive oxygen species (ROS) metabolism. Here, one of the MPV17 homolog genes designated as PyM‐LP2 was selected for functional identification by introducing the encoding sequence region/reverse complementary fragment into the Py. yezoensis genome. Although the photosynthetic activity, the respiratory rate, and the ROS level in wild type (WT) and different gene‐transformed algal strains showed similar levels under normal conditions, the overexpression (OE) strain exhibited higher values of photosynthesis, respiration, and reducing equivalents pool size but lower intracellular ROS production under stress conditions compared with the WT. Conversely, all the above parameters showed opposite variation trends in RNAi strain as those in the OE strain. This implied that the PyM‐LP2 protein was involved in the mitigation of the oxidative stress. Sequence analysis revealed that this PyM‐LP2 protein was assorted to peroxisomes and might serve as a poring channel for transferring malate (Mal) to peroxisomes. By overexpressing PyM‐LP2, the transfer of Mal from chloroplasts to peroxisomes was enhanced under stress conditions, which promoted photorespiration and ultimately alleviated excessive reduction of the photosynthetic electron chain. This research lays the groundwork for the breeding of algae with enhanced resistance to oxidative stresses. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Co‐suppression in Pyropia yezoensis (Rhodophyta) Reveals the Role of PyLHCI in Light Harvesting and Generation Switch.

Author

Zheng, Zhenbing, He, Bangxiang, Xie, Xiujun, Wang, Guangce, and Raven, J.

Subjects
BANGIALES, RED algae, MEMBRANE proteins, MARINE algae culture, PHYCOBILISOMES, GENES
Abstract

The red macroalga Pyropia yezoensis is an economically important seaweed widely cultured in Asian countries and is a model organism for molecular biological and commercial research. This species is unique in that it utilizes both phycobilisomes and transmembrane light‐harvesting proteins as its antenna system. Here, one of the genes of P. yezoensis (PyLHCI) was selected for introduction into its genome to overexpress PyLHCI. However, the co‐suppression phenomenon occurred. This is the first documentation of co‐suppression in algae, in which it exhibits a different mechanism from that in higher plants. The transformant (T1) was demonstrated to have higher phycobilisomes and lower LHC binding pigments, resulting in a redder color, higher sensitivity to salt stress, smaller in size, and slower growth rate than the wildtype (WT). The photosynthetic performances of T1 and WT showed similar characteristics; however, P700 reduction was slower in T1. Most importantly, T1 could release a high percentage of carpospores in young blades to switch generation during its life cycle, which was rarely seen in WT. The co‐suppression of PyLHCI revealed its key roles in light harvesting, stress resistance, and generation alternation (generation switch from gametophytes to sporophytes, and reproduction from asexual to sexual). [ABSTRACT FROM AUTHOR]

Published
2021
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10. Generation and analysis of 5318 expressed sequence tags from the filamentous sporophyte ofPorphyra haitanensis(Rhodophyta)1

Author

Fan Xiaolei, Hu Songnian, Wang Guangce, and Fang Yongjun

Subjects
Expressed sequence tag, GenBank, Codon usage bias, Porphyra haitanensis, Botany, Sporophyte, Plant Science, Aquatic Science, Biology, biology.organism_classification, Gene
Abstract

Porphyra haitanensis T. J. Chang et B. F. Zheng (Bangiales, Rhodophyta) is cultivated in China and widely consumed in Asia. To gain more insight into its physiological and biochemical properties, we generated 5318 expressed sequence tags (ESTs) from the sporophyte of P. haitanensis, and upon assembling into a nonredundant set, 2535 sequences were obtained, among which only 32.2% (816) shared certain similarity with published sequences (Nr and KOG). Functional classification of such ESTs revealed that most of the transcripts were related to its conservative biological metabolism, and P. haitanensis most likely possesses cyanide-resistant respiration and a C4-like carbon-fixation pathway, both of which have never been reported in a rhodophyte before. Twenty-eight percent of the nonredundant gene clusters exhibited significant similarity to those from P. yezoensis Ueda sporophytes, and 16 genes up-regulated in P. yezoensis sporophytes were also expressed abundantly in P. haitanensis. Codon usage analysis indicated that exposure to high GC pressure might occur during evolution of P. haitanensis. These findings represent the most extensive collection of ESTs from P. haitanensis to date, and all the ESTs in this study have been submitted to GenBank (accession nos. DN604790-DN608469, EG016226-EG018540).

Published
2007

12. Effect of iron on the growth of <italic>Phaeodactylum tricornutum</italic> via photosynthesis.

Author

Zhao, Peipei, Gu, Wenhui, Huang, Aiyou, Wu, Songcui, Liu, Changheng, Huan, Li, Gao, Shan, Xie, Xiujun, and Wang, Guangce

Subjects
PHAEODACTYLUM tricornutum, PHOTOSYNTHESIS, PHYTOPLANKTON, IRON fertilizers, PHOTOSYSTEMS
Abstract

Iron is a limiting factor that controls the phytoplankton biomass in the modern ocean, and iron fertilization of the ocean could lead to blooms dominated by diatoms. Thus, iron plays an important role in controlling the distribution of diatoms. In this study, we measured the growth rate and photosynthetic activity of the model diatom Phaeodactylum tricornutum cultured under different iron concentrations and found that it grew more rapidly and had a much higher photosynthetic efficiency under higher iron concentrations. In order to explore the unique mechanism of the response of diatoms to iron, a proteomic analysis was carried out, and the results indicated that iron promotes the Calvin cycle of P. tricornutum. Diatoms can tolerate the pressure of iron limitation by replacing iron‐rich proteins with flavodoxin, and so on. Moreover, we found that the photosystem I (PSI) activity of iron‐limited algae that were treated by N’,N’,N’,N’‐tetramethyl‐p‐phenylenediamine (TMPD) was increased significantly. As TMPD plays the role of a cytochrome b6/f complex that transfers electrons from photosystem II to PSI, the cytochrome b6/f complex is the key to photosynthesis regulation. Iron could influence the growth of P. tricornutum by regulating its biosynthesis. All of the results suggest that iron might affect the growth of diatoms through the Calvin cycle and the cytochrome b6/f complex. [ABSTRACT FROM AUTHOR]

Published
2018
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13. Photosynthetic activity and proteomic analysis highlights the utilization of atmospheric CO2 by Ulva prolifera (Chlorophyta) for rapid growth.

Author

Huan, Li, Gu, Wenhui, Gao, Shan, Wang, Guangce, and Amsler, C.

Subjects
ULVA, PROTEOMICS, ATMOSPHERIC carbon dioxide, ALGAL genetics, GLOBAL environmental change
Abstract

Free-floating Ulva prolifera is one of the causative species of green tides. When green tides occur, massive mats of floating U. prolifera thalli accumulate rapidly in surface waters with daily growth rates as high as 56%. The upper thalli of the mats experience environmental changes such as the change in carbon source, high salinity, and desiccation. In this study, the photosynthetic performances of PSI and PSII in U. prolifera thalli exposed to different atmospheric carbon dioxide ( CO2) levels were measured. Changes in photosynthesis within salinity treatments and dehydration under different CO2 concentrations were also analyzed. The results showed that PSII activity was enhanced as CO2 increased, suggesting that CO2 assimilation was enhanced and U. prolifera thalli can utilize CO2 in the atmosphere directly, even when under moderate stress. In addition, changes in the proteome of U. prolifera in response to salt stress were investigated. Stress-tolerance proteins appeared to have an important role in the response to salinity stress, whereas the abundance of proteins related to metabolism showed no significant change under low salinity treatments. These findings may be one of the main reasons for the extremely high growth rate of free-floating U. prolifera when green tides occur. [ABSTRACT FROM AUTHOR]

Published
2016
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21. Genetic similarity analysis within Pyropia yezoensis blades developed from both conchospores and blade archeospores using AFLP1.

Author

He, Linwen, Zhu, Jianyi, Lu, Qinqin, Niu, Jianfeng, Zhang, Baoyu, Lin, Apeng, Wang, Guangce, and Cock, M.

Subjects
RED algae, HERBICIDES, AMPLIFIED fragment length polymorphism, LOCUS (Genetics), CROSS-fertilization (Biology), GENETIC polymorphisms, GERMINATION
Abstract

Pyropia yezoensis (Ueda) M. S. Hwang et H. G. Choi (previously called Porphyra yezoensis) is an economically important alga. The blades generated from conchospores are genetic chimeras, which are not suitable for genetic similarity analysis. In this study, two types of blades from a single filament of P. yezoensis sporophyte filament were obtained. One type, ConB, consisted of 40 blades that had germinated from conchospores. The other type, ArcB, consisted of 88 blades that had germinated from archeospores released from ConB. Both of them were analyzed by amplified fragment length polymorphism. The low genetic similarity levels for both conchospore-germinated and archeospore-germinated blades demonstrated that the conchcelis we used was cross-fertilized. Furthermore, a higher polymorphic loci ratio (98.6%) was detected in ArcB than in ConB (80.7%), and the average genetic similarity of ArcB (average 0.61) was lower than that of ConB (average 0.71). These differences indicated that genetic analysis using ArcB gives more accurate results. [ABSTRACT FROM AUTHOR]

Published
2013
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22. Cyclophilin Participates in Responding to Stress Situations in Porphyra haitanensis (Bangiales, Rhodophyta).

Author

Jia, Zhaojun, Niu, Jianfeng, Huan, Li, Wu, Xiaojie, Wang, Guangce, and Hou, Zhaojun

Subjects
GAMETOPHYTES, CYCLOPHILINS, RED algae, PHYSIOLOGICAL stress, POLYMERASE chain reaction, ALGAE
Abstract

Porphyra haitanensis (T. J. Chang & B. F. Zheng) is an important economic alga found off the southern coast of China. It has evolved a strong tolerance against stress, which is an important survival characteristic. Cyclophilin has been shown to be involved in the stress response of plants and algae. To investigate the tolerance against stress in Porphyra, we isolated the cyclophilin Ph CYP18 gene (Accession number ) and measured its expression over different generations and stress conditions. In P. haitanensis, cyclophilin Ph CYP18 accumulated more in the filamentous sporophyte generation than in the blade gametophyte generation. This difference was thought to be due to harsh environments and a gene dosage effect. It has been found, however, that Ph CYP18 expression was dysregulated in blades under high salt stress, strong irradiance stress and multifactorial stress compared to blades under normal conditions. Moreover, the changes were not linearly related to the degree of stress. It was therefore thought that Ph CYP18 actively responded to stress situations and induced strong stress tolerance, which is evident in P. haitanensis. [ABSTRACT FROM AUTHOR]

Published
2013
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23. Generation and analysis of 5318 expressed sequence tags from the filamentous sporophyte of porphyra haitanensis (Rhodophyta).

Author

Fan Xiaolei, Fang Yongjun, Hu Songnian, and Wang Guangce

Subjects
RED algae, MARINE algae, PHYCOLOGY, MARINE biology, MARINE organisms, BIOINFORMATICS, ALGAE
Abstract

Porphyra haitanensis T. J. Chang et B. F. Zheng (Bangiales, Rhodophyta) is cultivated in China and widely consumed in Asia. To gain more insight into its physiological and biochemical properties, we generated 5318 expressed sequence tags (ESTs) from the sporophyte of P. haitanensis, and upon assembling into a nonredundant set, 2535 sequences were obtained, among which only 32.2% (816) shared certain similarity with published sequences (Nr and KOG). Functional classification of such ESTs revealed that most of the transcripts were related to its conservative biological metabolism, and P. haitanensis most likely possesses cyanide-resistant respiration and a C4-like carbon-fixation pathway, both of which have never been reported in a rhodophyte before. Twenty-eight percent of the nonredundant gene clusters exhibited significant similarity to those from P. yezoensis Ueda sporophytes, and 16 genes up-regulated in P. yezoensis sporophytes were also expressed abundantly in P. haitanensis. Codon usage analysis indicated that exposure to high GC pressure might occur during evolution of P. haitanensis. These findings represent the most extensive collection of ESTs from P. haitanensis to date, and all the ESTs in this study have been submitted to GenBank (accession nos. – , – ). [ABSTRACT FROM AUTHOR]

Published
2007
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24. Genetic similarity analysis within Pyropia yezoensis blades developed from both conchospores and blade archeospores using AFLP1.

Author

He, Linwen, Zhu, Jianyi, Lu, Qinqin, Niu, Jianfeng, Zhang, Baoyu, Lin, Apeng, Wang, Guangce, and Cock, M.

Subjects
*RED algae, *HERBICIDES, *AMPLIFIED fragment length polymorphism, *LOCUS (Genetics), *CROSS-fertilization (Biology), *GENETIC polymorphisms, *GERMINATION
Abstract

Pyropia yezoensis (Ueda) M. S. Hwang et H. G. Choi (previously called Porphyra yezoensis) is an economically important alga. The blades generated from conchospores are genetic chimeras, which are not suitable for genetic similarity analysis. In this study, two types of blades from a single filament of P. yezoensis sporophyte filament were obtained. One type, ConB, consisted of 40 blades that had germinated from conchospores. The other type, ArcB, consisted of 88 blades that had germinated from archeospores released from ConB. Both of them were analyzed by amplified fragment length polymorphism. The low genetic similarity levels for both conchospore-germinated and archeospore-germinated blades demonstrated that the conchcelis we used was cross-fertilized. Furthermore, a higher polymorphic loci ratio (98.6%) was detected in ArcB than in ConB (80.7%), and the average genetic similarity of ArcB (average 0.61) was lower than that of ConB (average 0.71). These differences indicated that genetic analysis using ArcB gives more accurate results. [ABSTRACT FROM AUTHOR]

Published
2013
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25. Effect of iron on the growth of Phaeodactylum tricornutum via photosynthesis.

Author

Zhao P, Gu W, Huang A, Wu S, Liu C, Huan L, Gao S, Xie X, and Wang G

Subjects
Chromatography, Liquid, Diatoms metabolism, Dose-Response Relationship, Drug, Iron administration & dosage, Iron Deficiencies, Phytoplankton metabolism, Tandem Mass Spectrometry, Diatoms growth & development, Iron metabolism, Photosynthesis, Phytoplankton growth & development
Abstract

Iron is a limiting factor that controls the phytoplankton biomass in the modern ocean, and iron fertilization of the ocean could lead to blooms dominated by diatoms. Thus, iron plays an important role in controlling the distribution of diatoms. In this study, we measured the growth rate and photosynthetic activity of the model diatom Phaeodactylum tricornutum cultured under different iron concentrations and found that it grew more rapidly and had a much higher photosynthetic efficiency under higher iron concentrations. In order to explore the unique mechanism of the response of diatoms to iron, a proteomic analysis was carried out, and the results indicated that iron promotes the Calvin cycle of P. tricornutum. Diatoms can tolerate the pressure of iron limitation by replacing iron-rich proteins with flavodoxin, and so on. Moreover, we found that the photosystem I (PSI) activity of iron-limited algae that were treated by N',N',N',N'-tetramethyl-p-phenylenediamine (TMPD) was increased significantly. As TMPD plays the role of a cytochrome b 6 /f complex that transfers electrons from photosystem II to PSI, the cytochrome b 6 /f complex is the key to photosynthesis regulation. Iron could influence the growth of P. tricornutum by regulating its biosynthesis. All of the results suggest that iron might affect the growth of diatoms through the Calvin cycle and the cytochrome b 6 /f complex., (© 2017 Phycological Society of America.)

Published
2018
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26. Photosynthetic activity and proteomic analysis highlights the utilization of atmospheric CO 2 by Ulva prolifera (Chlorophyta) for rapid growth.

Author

Huan L, Gu W, Gao S, and Wang G

Subjects
Desiccation, Photosystem I Protein Complex metabolism, Photosystem II Protein Complex metabolism, Proteome drug effects, Salinity, Sodium Chloride pharmacology, Algal Proteins metabolism, Carbon Dioxide metabolism, Photosynthesis, Proteome metabolism, Ulva metabolism
Abstract

Free-floating Ulva prolifera is one of the causative species of green tides. When green tides occur, massive mats of floating U. prolifera thalli accumulate rapidly in surface waters with daily growth rates as high as 56%. The upper thalli of the mats experience environmental changes such as the change in carbon source, high salinity, and desiccation. In this study, the photosynthetic performances of PSI and PSII in U. prolifera thalli exposed to different atmospheric carbon dioxide (CO 2 ) levels were measured. Changes in photosynthesis within salinity treatments and dehydration under different CO 2 concentrations were also analyzed. The results showed that PSII activity was enhanced as CO 2 increased, suggesting that CO 2 assimilation was enhanced and U. prolifera thalli can utilize CO 2 in the atmosphere directly, even when under moderate stress. In addition, changes in the proteome of U. prolifera in response to salt stress were investigated. Stress-tolerance proteins appeared to have an important role in the response to salinity stress, whereas the abundance of proteins related to metabolism showed no significant change under low salinity treatments. These findings may be one of the main reasons for the extremely high growth rate of free-floating U. prolifera when green tides occur., (© 2016 Phycological Society of America.)

Published
2016
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27. ISOLATION AND CHARACTERIZATION OF CHLORELLA SOROKINIANA GXNN01 (CHLOROPHYTA) WITH THE PROPERTIES OF HETEROTROPHIC AND MICROAEROBIC GROWTH(1).

Author

Qiao H, Wang G, and Zhang X

Abstract

Heterotrophic and anaerobic microalgae are of significance in both basic research and industrial application. A microalga strain was isolated from a wastewater treatment pond and identified as Chlorella sorokiniana Shihira et W. R. Krauss GXNN01 in terms of morphology, physiology, and phylogeny. The strain grows rapidly in heterotrophic or mixotrophic conditions with addition of various carbon sources, and even in anaerobic conditions. The maximum growth rate reached 0.28 d(-1) when using d,l-malate as the carbon source, and the protein content of the microalgae was 75.32% in cell dry weight. The strain was shown to be capable of (1) utilizing d,l-malate only with light, (2) inhibiting photosynthesis in mixotrophic growth, and (3) growing in anaerobic conditions with regular photosynthesis and producing oxygen internally. This study demonstrates the influence of oxygen (aerobic vs. anaerobic) and metabolic regime (autotrophy, mixotrophy, heterotrophy) on the physiological state of the cell., (© 2009 Phycological Society of America.)

Published
2009
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