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Journal articles on the topic 'Mugilogobius'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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1

Gee, J., and P. Gee. "Aquatic surface respiration, buoyancy control and the evolution of air-breathing in gobies (Gobiidae: Pisces)." Journal of Experimental Biology 198, no. 1 (January 1, 1995): 79–89. http://dx.doi.org/10.1242/jeb.198.1.79.

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The role of a buccal gas bubble, held while performing aquatic surface respiration (ASR; ventilating the gills with surface water during hypoxia), was examined in benthic, intertidal Australian gobies (Favonigobius tamarensis, F. exquisitus, Pseudogobius olorum, Chlamydogobius sp., Mugilogobius paludis, Cryptocentroides cristatus and Arenigobius bifrenatus). Analyses of the forces of lift and weight of the head and body during ASR indicate a hydrostatic role for the bubble. During ASR, lift from the bubble was sufficient to provide neutral or positive buoyancy to the head, anchoring the mouth at the water surface. A buoyancy role was confirmed by experiments demonstrating the ability of some species to alter bubble volume, to compensate either for different body positions or for water densities (salinities). Use of the bubble for aerial respiration by Cryptocentroides, Mugilogobius, Chlamydogobius and Arenigobius was confirmed in hypoxia by the presence of blood-filled capillaries in the buccal subepithelium (mean air­blood barrier less than 30 µm) in areas of the buccal cavity that contacted the bubble. Blood-filled capillaries were rare or absent in normoxia in all species except Mugilogobius. Cutaneous respiration was inferred from the presence of blood-filled capillaries in the dermis and epidermis of emersed portions of the head in Mugilogobius, Chlamydogobius and Arenigobius. The buccal bubble has respiratory and hydrostatic roles and there is support for the hypothesis that ASR and the buoyancy regulation (air-gulping) required to perform it effectively are prerequisite steps in the evolution of air-breathing in these gobies.
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2

Iwata, K., and M. Kajimura. "Functional ureagenesis in a gobiid fish, Mugilogobius abei." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 124 (August 1999): S62. http://dx.doi.org/10.1016/s1095-6433(99)90246-5.

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3

Cai, Lei, Ren Huang, Lu-Jun Yu, and Jian-Jun Li. "Complete mitochondrial genome of Mugilogobius chulae (Perciformes: Gobiidae)." Mitochondrial DNA Part A 27, no. 6 (January 28, 2015): 4054–55. http://dx.doi.org/10.3109/19401736.2014.1003840.

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4

Iwata, K., M. Kajimura, and T. Sakamoto. "Functional ureogenesis in the gobiid fish Mugilogobius abei." Journal of Experimental Biology 203, no. 24 (December 15, 2000): 3703–15. http://dx.doi.org/10.1242/jeb.203.24.3703.

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To examine the transition to ureogenesis, the gobiid fish Mugilogobius abei was immersed in 2 mmol l(−)(1) NH(4)HCO(3) or a (15)N-labelled ammonia solution [1 mmol l(−)(1) ((15)NH(4))(2)SO(4), pH 8.0] for 4–8 days. When exposed to 2 mmol l(−)(1) NH(4)HCO(3) or (15)N-labelled ammonia solution for 4 days, the rate of urea excretion increased to seven times that of the control (in 20 % synthetic sea water) and remained at this level for 4 days. The proportion of nitrogen excreted as urea reached 62 % of total nitrogen excretion (ammonia-N + urea-N). (15)N-enrichment of the amide-N in glutamine in the tissues of fish exposed to (15)N-labelled ammonia was virtually the same as that of ammonia-N: i.e. approximately twice that of urea-N in the excreta and the tissues. Glutamine contents and glutamine synthetase activities in the liver and muscle increased greatly following exposure to ammonia. Urea and citrulline contents in the muscle and whole body of the exposed fish increased significantly, whereas uric acid contents remained unchanged. Carbamoyl phosphate synthetase III (CPSase III) mRNA expression and CPSase III activity were detected in the muscle, skin and gill, but levels were negligible in the liver. Furthermore, all other ornithine-urea cycle (O-UC) enzymes were also detected in muscle, skin and gill. Thus, M. abei clearly shows the transition from ammoniotely to ureotely under ammonia-loading condition and is able to produce urea mainly via the O-UC operating in multiple non-hepatic tissues as a means for ammonia detoxification.
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5

THACKER, CHRISTINE E. "Phylogenetic placement of the European sand gobies in Gobionellidae and characterization of gobionellid lineages (Gobiiformes: Gobioidei)." Zootaxa 3619, no. 3 (February 28, 2013): 369–82. http://dx.doi.org/10.11646/zootaxa.3619.3.6.

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The Mediterranean, northeastern Atlantic, and inland freshwaters of Europe and the Ponto-Caspian region host a distinct fauna of gobiiform fishes, including the sand gobies (Pomatoschistus Gill and related genera), all of which have been clas-sified in the most diverse goby group, the family Gobiidae. Recent molecular phylogenetic analyses have suggested that the sand gobies are not gobiids, and are instead part of their sister clade Gobionellidae (Thacker and Roje 2011). Phylo-genetic analysis of Pomatoschistus in the context of both gobiid and gobionellid taxa indicates that Pomatoschistus is part of Gobionellidae, specifically the Mugilogobius lineage. Gobionellidae includes 93 genera, which are arrayed into four lineages (Stenogobius, Mugilogobius, Periophthalmus and Northern Pacific). These lineages exhibit variation in charac-ters of the jaw and suspensorium, including the shapes and relative positions of the palatine, quadrate, and ectopterygoid. The observations of the palatopterygoid complex in Gobionellidae of Harrison (1989) and Larson (2001) are supported and augmented. Gobionellidae generally exhibit suspensoria that are overall more elongated and gracile than those of go-biids: the palatine/ectopterygoid pair features a very short (Periophthalmus lineage) or elongate, pointed palatine (Mugi-logobius, Northern Pacific, and Stenogobius lineages), with a relatively slender ectopterygoid and a short quadrate articulation. In Gobiidae, the palatine extends about halfway along the length of the ectopterygoid, and the ectopterygoid generally features a large, flat articulation with the quadrate. Suspensoria of Pomatoschistus and relatives are similar to those of other taxa in the Mugilogobius lineage. Placement of Pomatoschistus and relatives in Gobionellidae rather than Gobiidae is significant in that it indicates that sand gobies are not closely related to other European gobies, and has impli-cations for any comparative evolutionary or biogeographic studies.
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6

Mukai, Takahiko, Makiko Kajimura, and Katsuya Iwata. "Evolution of a Ureagenic Ability of Japanese Mugilogobius Species (Pisces: Gobiidae)." Zoological Science 17, no. 4 (May 2000): 549–57. http://dx.doi.org/10.2108/0289-0003(2000)17[549:eoauao]2.0.co;2.

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7

Iwata, K., T. Sakamoto, I. Iwata, E. Nishiguchi, and M. Kajimura. "High ambient ammonia promotes growth in a ureogenic goby, Mugilogobius abei." Journal of Comparative Physiology B 175, no. 6 (July 5, 2005): 395–404. http://dx.doi.org/10.1007/s00360-005-0001-7.

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8

Henmi, Yumi, Yuya Okada, and Gyo Itani. "Occasional utilization of crustacean burrows by the estuarine goby Mugilogobius abei." Journal of Experimental Marine Biology and Ecology 528 (July 2020): 151383. http://dx.doi.org/10.1016/j.jembe.2020.151383.

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9

CHENG, Zhang, Xiang-Ping NIE, Fang WANG, and Kai-Bin LI. "CLONING AND SEQUENCE ANALYSIS OF P450 1A1 IN MUGILOGOBIUS ABEI." Acta Hydrobiologica Sinica 33, no. 4 (August 5, 2009): 782–88. http://dx.doi.org/10.3724/sp.j.1035.2009.40782.

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10

Kajimura, Makiko, Katsuya Iwata, and Hideharu Numata. "Diurnal nitrogen excretion rhythm of the functionally ureogenic gobiid fish Mugilogobius abei." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 131, no. 2 (February 2002): 227–39. http://dx.doi.org/10.1016/s1096-4959(01)00503-6.

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11

Huang, Shih-Pin, Chia-Ning Shen, and I.-Shiung Chen. "The complete mitochondrial genome of the Abe’s mangrove goby Mugilogobius abei (Teleostei, Gobiidae)." Mitochondrial DNA 26, no. 1 (July 31, 2013): 143–44. http://dx.doi.org/10.3109/19401736.2013.819494.

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12

IWATA, KATSUYA, MAKIKO KAJIMURA, and TATSUYA SAKAMOTO. "Ureogenic function and periodic urea excretion in a gobiid fish, Mugilogobius abei." Fisheries science 68, sup2 (2002): 1410–13. http://dx.doi.org/10.2331/fishsci.68.sup2_1410.

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13

Cai, Lei, Jianjun Li, Lujun Yu, Yuanzheng Wei, Zongyu Miao, Meili Chen, and Ren Huang. "De novo transcriptome assembly of the new marine fish model of goby, Mugilogobius chulae." Marine Genomics 40 (July 2018): 18–20. http://dx.doi.org/10.1016/j.margen.2018.02.001.

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14

Larson, Helen K. "A revision of the gobiid fish genus Mugilogobius (Teleostei: Gobioidei), and its systematic placement." Records of the Western Australian Museum, Supplement 62, no. 1 (2001): 1. http://dx.doi.org/10.18195/issn.0313-122x.62.2001.001-233.

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15

Li, Jianjun, Zhanming Chen, Ren Huang, Zongyu Miao, Lei Cai, and Qingping Du. "Toxicity assessment and histopathological analysis of nano-ZnO against marine fish (Mugilogobius chulae) embryos." Journal of Environmental Sciences 73 (November 2018): 78–88. http://dx.doi.org/10.1016/j.jes.2018.01.015.

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16

Wang, Yimeng, Chao Wang, Meinan Xie, Tianli Tang, Zhaohui Wang, and Xiangping Nie. "Atorvastatin causes oxidative stress and alteration of lipid metabolism in estuarine goby Mugilogobius abei." Environmental Pollution 289 (November 2021): 117879. http://dx.doi.org/10.1016/j.envpol.2021.117879.

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17

Wang, Chao, Peijia Ku, Xiangping Nie, Shuang Bao, Zhaohui Wang, and Kaibin Li. "Effects of simvastatin on the PXR signaling pathway and the liver histology in Mugilogobius abei." Science of The Total Environment 651 (February 2019): 399–409. http://dx.doi.org/10.1016/j.scitotenv.2018.09.133.

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18

Wei, Yuanzheng. "Optimal Dietary Protein and Lipid Levels for Juvenile Yellowstripe Goby (Mugilogobius Chulae), a Proposed Laboratory Fish." American Journal of BioScience 6, no. 2 (2018): 23. http://dx.doi.org/10.11648/j.ajbio.20180602.11.

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19

Guo, Zhiqiang, Zhixin Ni, Hengzhen Ye, Juan Xiao, Lizhao Chen, Iain Green, and Li Zhang. "Simultaneous uptake of Cd from sediment, water and diet in a demersal marine goby Mugilogobius chulae." Journal of Hazardous Materials 364 (February 2019): 143–50. http://dx.doi.org/10.1016/j.jhazmat.2018.09.045.

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20

Tran, Hau Duc, Anh Thi Nguyen, Nam Hoang Chu, Trang Thi Huyen Nguyen, Thuy Thi Ta, Hung Phuc Nguyen, Long Van Pham, and Linh Manh Ha. "Length–weight relations of 11 goby species (Actinopterygii: Gobiiformes) from mangroves along the Ba Lat estuary of the Red River, Vietnam." Acta Ichthyologica et Piscatoria 51, no. 3 (September 9, 2021): 271–74. http://dx.doi.org/10.3897/aiep.51.e64918.

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Presently reported study examined the length–weight relations for 11 goby species collected from a mangrove estuary of the Red River, Vietnam. A total of 1097 individuals of the following species, representing three goby families, were analyzed: Butis butis (Hamilton, 1822); Butis koilomatodon (Bleeker, 1849); Acentrogobius moloanus (Herre, 1927); Acentrogobius viridipunctatus (Valenciennes, 1837); Apocryptodon madurensis (Bleeker, 1849); Aulopareia unicolor (Valenciennes, 1837); Glossogobius giuris (Hamilton, 1822); Gobiopsis macrostoma Steindachner, 1861; Mugilogobius abei (Jordan et Snyder, 1901); Tridentiger barbatus (Günther, 1861); and Tridentiger trigonocephalus (Gill, 1859). The regression slope values (b) ranged from 2.909 to 3.621. The majority of species had positive allometric or isometric growth pattern with b ≥ 3, except for only one species (G. giuris) which had a negative allometric growth with b = 2.909. This study provided the first LWR information of four gobies that have not been reported in FishBase yet. Besides, the reference for LWRs of other gobies at an ecologically important area like Ba Lat Estuary is also provided.
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21

Tran, Hau Duc, Anh Thi Nguyen, Nam Hoang Chu, Trang Thi Huyen Nguyen, Thuy Thi Ta, Hung Phuc Nguyen, Long Van Pham, and Linh Manh Ha. "Length–weight relations of 11 goby species (Actinopterygii: Gobiiformes) from mangroves along the Ba Lat estuary of the Red River, Vietnam." Acta Ichthyologica et Piscatoria 51, no. 3 (September 9, 2021): 271–74. http://dx.doi.org/10.3897/aiep.51.64918.

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Presently reported study examined the length–weight relations for 11 goby species collected from a mangrove estuary of the Red River, Vietnam. A total of 1097 individuals of the following species, representing three goby families, were analyzed: Butis butis (Hamilton, 1822); Butis koilomatodon (Bleeker, 1849); Acentrogobius moloanus (Herre, 1927); Acentrogobius viridipunctatus (Valenciennes, 1837); Apocryptodon madurensis (Bleeker, 1849); Aulopareia unicolor (Valenciennes, 1837); Glossogobius giuris (Hamilton, 1822); Gobiopsis macrostoma Steindachner, 1861; Mugilogobius abei (Jordan et Snyder, 1901); Tridentiger barbatus (Günther, 1861); and Tridentiger trigonocephalus (Gill, 1859). The regression slope values (b) ranged from 2.909 to 3.621. The majority of species had positive allometric or isometric growth pattern with b ≥ 3, except for only one species (G. giuris) which had a negative allometric growth with b = 2.909. This study provided the first LWR information of four gobies that have not been reported in FishBase yet. Besides, the reference for LWRs of other gobies at an ecologically important area like Ba Lat Estuary is also provided.
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22

Guo, Zhiqiang, Na Gao, Yun Wu, and Li Zhang. "The simultaneous uptake of dietary and waterborne Cd in gastrointestinal tracts of marine yellowstripe goby Mugilogobius chulae." Environmental Pollution 223 (April 2017): 31–41. http://dx.doi.org/10.1016/j.envpol.2016.12.007.

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23

Wang, Chao, Tianli Tang, Yimeng Wang, Xiangping Nie, and Kaibin Li. "Simvastatin affects the PPARα signaling pathway and causes oxidative stress and embryonic development interference in Mugilogobius abei." Aquatic Toxicology 239 (October 2021): 105951. http://dx.doi.org/10.1016/j.aquatox.2021.105951.

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24

Cai, Lei, Ren Huang, and Jianjun Li. "Complete mitochondrial genome and the phylogenetic position of the Mugilogobius myxodermus: an endemic freshwater gobiid fish in China." Mitochondrial DNA Part B 2, no. 2 (September 4, 2017): 615–17. http://dx.doi.org/10.1080/23802359.2017.1372708.

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25

Cui, Zhisong, Xiao Luan, Shujun Li, Xilong Zhao, Zhongting Lin, Jianjun Li, Wei Gao, Li Zheng, Zhengzhao Ma, and Jianghao Xie. "Genotoxicity detection of oil-containing drill cuttings by Comet assay based on a demersal marine fish Mugilogobius chulae." Ecotoxicology and Environmental Safety 208 (January 2021): 111655. http://dx.doi.org/10.1016/j.ecoenv.2020.111655.

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26

Wang, Yimeng, Chao Wang, Shuang Bao, and Xiangping Nie. "Responses of the Nrf2/Keap1 signaling pathway in Mugilogobius abei (M. abei) exposed to environmentally relevant concentration aspirin." Environmental Science and Pollution Research 27, no. 13 (February 20, 2020): 15663–73. http://dx.doi.org/10.1007/s11356-020-07912-3.

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27

Ku, Peijia, Chao Wang, Xiangping Nie, Ruikang Ou, and Kaibing Li. "Regulation of pregnane-X-receptor and microRNAs on detoxification-related genes expressions in Mugilogobius abei under the exposure to diclofenac." Environmental Pollution 233 (February 2018): 395–406. http://dx.doi.org/10.1016/j.envpol.2017.10.080.

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28

Cai, Lei, Jianjun Li, Lujun Yu, Yuanzheng Wei, Zongyu Miao, Meili Chen, and Ren Huang. "Characterization of transcriptional responses mediated by benzo[a]pyrene stress in a new marine fish model of goby, Mugilogobius chulae." Genes & Genomics 41, no. 1 (September 21, 2018): 113–23. http://dx.doi.org/10.1007/s13258-018-0743-8.

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29

Nasution, Syahroma Husni, Gadis Sri Haryani, Rahmi Dina, and Octavianto Samir. "ANCAMAN JENIS IKAN ASING LOUHAN TERHADAP IKAN ENDEMIK DI DANAU MATANO, SULAWESI SELATAN." BERITA BIOLOGI 18, no. 2 (August 27, 2019): 235–45. http://dx.doi.org/10.14203/beritabiologi.v18i2.2993.

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Lake Matano is one of the ancient lakes in Sulawesi where some endemic fish species of Telmatherina, Mugilogobius, Oryziasand Glossogobius matanensis lived. The presence of alien species can be on threat for the loss of biodiversity in fresh waters, including endemic fish in Lake Matano. The research aim to review the threat of louhan fish as alien species to endemic fish in Lake Matano. The study was conducted in Lake Matano at five stations in April and August 2015 namely Lawa, Nuha, Petea, Pantai Impian, and Pantai Kupu-kupu. Sam-ples were collected using experimental gillnet with mesh size of ¾; 1; 1¼; 1⅟2; 2; 2,5; and 3 inches. Fouteen species were found consist of 10 endemic species and red list.These were three of genus Glossogobius, seven species of Telmatherina, and four alien species of the carp (Cyprinus carpio), louhan, gourami (Trichopodus trichopterus), and tilapia (Oreochromis niloticus). The most common species of endemic fish is T. antoniae. Louhan is the result of a hybrid species Amphilopus citrinellus x Cichlasoma trimaculatum. The abundance of louhan is 64 in April and 40 fishes in August, respectively at a time caught. The percentage ratio of louhan to endemic fish was of 8.6% and 18.3%. This indicated that the louhan fish tend to be invasive and certainly threatened endemic fish survival in this lake. The maturity of gonads of louhan is in the level of I - IV that enables the fish to reproduce quickly.
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30

Herjayanto, Muh, Abdul Gani, Yeldi S. Adel, and Novian Suhendra. "FREHSWATER FISH OF LAKES AND IT’S INLET RIVERS IN SULAWESI TENGAH PROVINCE, INDONESIA." Journal of Aquatropica Asia 4, no. 1 (April 7, 2020): 1–9. http://dx.doi.org/10.33019/aquatropica.v4i1.1679.

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Sulawesi Tengah Province (Sulteng) is in the Wallacea region wich have endemic fish. In addition, the government has also introduced fish for the welfare of community. So far the records of freshwater fish in Sulteng have not been well summarized. Therefore, we explore the results of previous studies fish species in 11 lakes and their inlet rivers in Sulteng. The lake (L) is L. Bolano (Bolanosau), L. Lindu, L. Poso, L. Rano, L. Rano Kodi and L. Rano Bae, L. Sibili, L. Talaga (Dampelas), L. Kalimpa’a (Tambing), L. Tiu and L. Wanga. In addition, we also observed fish in seven lakes between 2012-2019. Fishing uses cast net, seine net, gillnet, and hook and line. Summary and observation result showed that there were 18 families and 27 genera of fish in 11 lake and their inlet rivers in Sulteng. Then there are 15 endemic species in 3 habitats (Lindu, Poso and Tiu), namely Adrianichthys 4 species, Oryzias 6 species, Mugilogobius 2 species and Nomorhamphus 3 species. Introduced fish as many as 23 species, Oreochromis niloticus the most found (8 lakes). Lake Poso (30 species) has the most fish species. Utilization of fish in 11 lake as consumption fish and ornamental fish. Especially for endemic fish, in situ (habitat) and / or ex situ (aquaculture) conservation needs to be carried out in order to remain sustainable. Through aquaculture, the breeding of endemic species that have the potential as ornamental fish and/or consumption can be avoided from exploitation (overfishing) in nature.
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Miao, Zongyu, Jianjun Li, Lujun Yu, Lei Cai, Yuanzheng Wei, Meili Chen, and Ren Huang. "Cloning and characterization of a heat shock protein 70 gene from the yellowstripe goby, Mugilogobius chulae : Evidence for its significance in biomonitoring of environmental pollution." Gene Reports 11 (June 2018): 170–78. http://dx.doi.org/10.1016/j.genrep.2018.03.016.

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Cui, Zhisong, Xiao Luan, Shujun Li, Xilong Zhao, Zhongting Lin, Jianjun Li, Wei Gao, Li Zheng, Zhengzhao Ma, and Jianghao Xie. "Corrigendum to: “Genotoxicity detection of oil-containing drill cuttings by Comet assay based on a demersal marine fish Mugilogobius chulae” [Ecotoxicol. Environ. Saf. 208 (2021) 111655]." Ecotoxicology and Environmental Safety 211 (March 2021): 111918. http://dx.doi.org/10.1016/j.ecoenv.2021.111918.

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33

Mukai, Takahiko, Makiko Kajimura, and Katsuya Iwata. "Evolution of a Ureagenic Ability of Japanese Mugilogobjus Species (Pisces: Gobiidae)." ZOOLOGICAL SCIENCE 17, no. 4 (2000): 549–57. http://dx.doi.org/10.2108/zsj.17.549.

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34

"Diurnal nitrogen exretion rhythm of a functional ureagenic gobiid fish, Mugilogobius abei." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 124 (August 1999): S136. http://dx.doi.org/10.1016/s1095-6433(99)90539-1.

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35

Zhang, Qing Li, Shuang Liu, Jun Li, Ting Ting Xu, Xiu Hua Wang, Guang Ming Fu, Xiao Ping Li, Song Wen Sang, Xiao Dong Bian, and Jing Wei Hao. "Evidence for Cross-Species Transmission of Covert Mortality Nodavirus to New Host of Mugilogobius abei." Frontiers in Microbiology 9 (July 9, 2018). http://dx.doi.org/10.3389/fmicb.2018.01447.

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36

Cai, Lei, Guocheng Liu, Yuanzheng Wei, Yabing Zhu, Jianjun Li, Zongyu Miao, Meili Chen, et al. "Whole-genome sequencing reveals sex determination and liver high-fat storage mechanisms of yellowstripe goby (Mugilogobius chulae)." Communications Biology 4, no. 1 (January 4, 2021). http://dx.doi.org/10.1038/s42003-020-01541-9.

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AbstractAs a promising novel marine fish model for future research on marine ecotoxicology as well as an animal model of human disease, the genome information of yellowstripe goby (Mugilogobius chulae) remains unknown. Here we report the first annotated chromosome-level reference genome assembly for yellowstripe goby. A 20.67-cM sex determination region was discovered on chromosome 5 and seven potential sex-determining genes were identified. Based on combined genome and transcriptome data, we identified three key lipid metabolic pathways for high-fat accumulation in the liver of yellowstripe goby. The changes in the expression patterns of MGLL and CPT1 at different development stage of the liver, and the expansion of the ABCA1 gene, innate immune gene TLR23, and TRIM family genes may help in balancing high-fat storage in hepatocytes and steatohepatitis. These results may provide insights into understanding the molecular mechanisms of sex determination and high-fat storage in the liver of marine fishes.
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Jayadi, Muhammad Natsir Nessa, Andi Tamsil, Harlina, Ernaningsih, Nursyahran, and Abdul Muqtadir. "Ichthyofauna of Endemic Fish in Towuti Lake, Luwu Timur Regency, South Sulawesi, Indonesia." Asian Journal of Fisheries and Aquatic Research, May 21, 2021, 20–30. http://dx.doi.org/10.9734/ajfar/2021/v12i330235.

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Aims: The aims of this study to determine the biodiversity of endemic fish in Lake Towuti, Luwu Timur Regency South Sulawesi, Indonesia. Study Design: The research was conducted by survey Place and Duration of Study: The research was carried out in February until March 2021 in Tanjung Timbala; Tanjung Lengkobutanga; Tanjung Bakara; Tanjung Saone and. Tanjung Tominanga at Lake Towuti, Luwu Timur Regency South Sulawesi, Indonesia. Methodology: Fish samples were carried out every week using a trap net for 8 weeks. Fish samples obtained from each station were separated according to species. Fish samples were preserved with 4% formalin and then immersed in 70% alcohol before species identification was conducted. Data analysis in this research used descriptive statistics. Results: The endemic fish species was found is telamtherina bonti Telmatherina bonti, Telmatherina celebensis, Paratherina striata, Tominanga sanguicauda, Tominanga aurea Oryzias profundicola, Oryzias matanensis, Oryzias marmoratus, Mugilogobius hitam, Glossogobius flavipinnis, Glossogobius matanensis and Dermogenys megarhamphus. The percentage of endemic fish caught at each station on Lake Towuti was different. The water quality parameters obtained are as follows Temperature: 26.40⁰C-30.30⁰C, pH: 6.35-9.03, dissolved oxygen (DO):6.25-8.95 mg/L and NO3-N: 0.023-0.066 mg/L.This water quality were suitable for the survival and growth of endemic fish. Conclusion: Endemic fish families were obtained such as Telmatheridae, Adrianichthyidae, Gobiidae and Hemiramphidae and a total of twelve endemic fish species were found in this study. The number of endemic fish was found to be different at the station. Water quality parameters play an important role in the distribution and existence of endemic fish in Lake Towuti.
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