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Journal articles on the topic 'Cynoglossus'

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

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1

Chapleau, François. "Comparative osteology and intergeneric relationships of the tongue soles (Pisces; Pleuronectiformes; Cynoglossidae)." Canadian Journal of Zoology 66, no. 5 (May 1, 1988): 1214–32. http://dx.doi.org/10.1139/z88-177.

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This article contains the first detailed osteological study of several flatfish species belonging to the three currently recognized genera of tongue soles (Cynoglossidae). The resulting information was used to reassess, following the cladistics methodology, the monophyletic status of the family and to put forward a hypothesis of generic relationships. The polarity of the character states was determined by outgroup comparison using the Soleidae as the sister group of the Cynoglossidae and the Achiridae as the sister group of the soleid–cynoglossid lineage. An analysis of numerous characters corroborated the monophyletism of the Cynoglossidae. It was also found that the genus Symphurus (Symphurinae) is monophyletic and is the sister group of the monophyletic Cynoglossus–Parapaglusia (Cynoglossinae) lineage. Parapaglusia was shown to be monophyletic, but no evidence was found to corroborate a similar status for Cynoglossus. An examination of the osteology of more species belonging to the speciose genera Symphurus and Cynoglossus is needed to further test this hypothesis of relationships.
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2

Alina, Dining Nika, and Hawis Madduppa. "IDENTIFIKASI IKAN LIDAH Cynoglossus arel (Bloch & Schneider, 1801) BERDASARKAN MORFOMETRIK DAN DNA BARCODING YANG DIPERDAGANGKAN DI TEMPAT PELELANGAN IKAN MUARA ANGKE." BAWAL Widya Riset Perikanan Tangkap 12, no. 1 (November 11, 2020): 31. http://dx.doi.org/10.15578/bawal.12.1.2020.31-39.

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Ikan lidah merupakan ikan ekonomis penting yang menjadi salah satu komoditas yang diperdagangkan di Tempat Pelelangan Ikan (TPI) Muara Angke. Ikan lidah memiliki keunikan karena metamorfosis mereka, kebiasaan membenamkan diri dalam substrat dan sirip pektoralnya yang terdegradasi sedangkan sirip lainnya saling bertemu. Terdapat enam spesies ikan lidah dari famili Cynoglossidae yang dapat ditemukan di Indonesia, sedangkan penelitian terkait identifikasi ikan lidah masih terbatas. Penelitian ini bertujuan untuk mengidentifikasi dan memastikan spesies ikan lidah yang diperdagangkan di TPI Muara Angke berdasarkan pengukuran morfometrik dan DNA Barcoding menggunakan sekuen COI. Hasil analisis morfologi menggunakan literatur menunjukkan bahwa ikan lidah sampel memiliki kemiripan karakteristik morfologi dengan Cynoglossus lingua dan Cynoglossus arel yang kemudian diyakini sebagai C. arel berdasarkan ciri diagnostiknya. Berdasarkan analisis DNA barcoding diperoleh spesies Cynoglossus cf. arel dengan identifikasi kesamaan 100% yang tercantum dalam GenBank. Dari hasil analisis morfologi dan DNA barcoding menunjukkan bahwa ikan lidah yang diperdagangkan di TPI Muara Angke merupakan ikan dari famili Cynoglossidae, genus Cynoglossus, spesies Cynoglossus arel.Tongue Fish Identification Traded in Muara Angke Fish Auction Based on Morphometric and DNA Barcoding Using COI Sequences. Tongue fish is an important economical fish which is one of the commodities traded at Muara Angke Fish Auction. Tongue fish are unique because of their metamorphosis, their habit of immersing themselves in the substrate, and their pectoral fins degraded while the other three fins are confluent. There are six species of tongue fish from the Cynoglossidae family that can be found in Indonesia, whereas the study about tongue fish identifications are limited. The present study aims to identify and clarify the species of tongue fish traded at Muara Angke Fish Auction based on morphometric measurements and DNA Barcoding using the COI sequence. The results of the morphological analysis using the literature showed that the tongue fish samples had similar morphological characteristics with Cynoglossus lingua and Cynoglossus arel which were then believed to be C. arel based on their diagnostic characteristics. DNA barcoding analysis of tongue fish sample shows Cynoglossus cf. arel with 100% similarity identification listed in GenBank. From the results of morphological analysis and DNA barcoding showed that the tongue fish traded at TPI Muara Angke are fish from the family Cynoglossidae, genus Cynoglossus, species of Cynoglossus arel.
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3

Voronina, E. P., A. M. Prokofiev, and V. P. Prirodina. "Review of the flatfishes of Vietnam in the collection of Zoological Institute, Saint Petersburg." Proceedings of the Zoological Institute RAS 320, no. 4 (December 25, 2016): 381–430. http://dx.doi.org/10.31610/trudyzin/2016.320.4.381.

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A review of 47 species in 28 genera of flatfishes (families Citharidae, Bothidae, Paralichthyidae, Samaridae, Soleidae and Cynoglossidae) caught off Vietnam and kept in Zoological Institute is presented. Most of the material is collected off Southern Vietnam, smaller part – in the Gulf of Tonkin with maximal number of species and specimens caught to a depth of 50 m. Bothids, soleids and cynoglossids are most numerous, which is typical of Indo-Pacific flatfish fauna. Study of material adds 15 species to the list of 82 previously known from Vietnam. Two species, the paralichthyid Pseudorhombus oculocirris and soleid Soleichthys tubiferus, are recorded for the first time for the South China Sea, these findings considerably extend their ranges. Thirteen species are indicated for the fauna of Vietnam for the first time: Arnoglossus macrolophus, Chascanopsetta lugubris, Engyprosopon maldivensis, Kamoharaia megastoma (Bothidae), Samariscus filipectoralis, Samariscus luzonensis (Samaridae), Aseraggodes dubius, Zebrias crossolepis, Zebrias lucapensis (Soleidae), Cynoglossus kopsi, Cynoglossus quadrilineatus, Paraplagusia japonica, Symphurus microrhynchus (Cynoglossidae). Annotated synonymy, diagnostic characters, photographs, counts and map of occurrences are given for each species. The comparison shows similarity of flatfish fauna composition of Northern Vietnam and Southern Vietnam in spite of climatic and hydrological difference between regions. Our findings confirm previously known widespread distribution of the Indo-Pacific flatfishes and characterize species as eurythermal and euryhaline.
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4

Choi, Soo-Cheol, and In-Ah Lee. "Effect of MMP/TIMP Balancing of Cynoglossus semilaevis Shell Extracts on Skin Protection." Fishes 6, no. 3 (August 24, 2021): 34. http://dx.doi.org/10.3390/fishes6030034.

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Cynoglossus semilaevis shell is a by-product of the Cynoglossus semilaevis, a species of fish mainly distributed along the west coast of Korea. As its skin is very tough and difficult to process, it is not useful as food. For this reason, most of it is discarded except for a small amount that is used as feed, which results in environmental pollution. Considering this, there is a need for research on the development of functional materials using Cynoglossus semilaevis shell. This study focused on the mechanism of in vitro expression function of Cynoglossus semilaevis shell extract (CSE) for skin tissue in human dermal fibroblasts that induced or did not induce wrinkles by UV-B irradiation and aims to use it as a functional material for human skin beauty or wrinkle improvement through extraction and purification. According to the ELISA results using human dermal fibroblast cells, CSE reduced MMP-1 and elastase activity by up to 21.89% and 12.04%, respectively, in a concentration-dependent manner, and increased PIP synthesis by up to 62.24% in a concentration-dependent manner. The RT-PCR test results using mRNA showed the MMP-1, 2, and 3 expression levels were suppressed in the CSE-treated group compared to the UVB-induced group and caused a concentration-dependent increase in TIMP-1 in the CSE-treat group. These results suggest that CSE can maintain and improve skin tissue conditions through MMP/TIMP balancing in human dermal fibroblast cell lines and indicate its potential as a functional material for improving skin diseases and suppressing photo-aging.
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5

Gustiarisanie, Arinie, Muhammad Fadjar Rahardjo, and Yunizar Ernawati. "BIOLOGI REPRODUKSI IKAN LIDAH, (Cynoglossus cynoglossus, Hamilton 1822) PISCES: CYNOGLOSSIDAE DI TELUK PABEAN, JAWA BARAT." BAWAL Widya Riset Perikanan Tangkap 9, no. 2 (December 6, 2017): 103. http://dx.doi.org/10.15578/bawal.9.2.2017.103-112.

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Ikan Cynoglossus cynoglossus termasuk dalam famili Cynoglossidae yang hidupnya menetap di dasar perairan. Di Teluk Pabean, ikan ini dimanfaatkan oleh masyarakat untuk dikonsumsi sendiri dan untuk dijual. Tujuan penelitian ini adalah untuk mengetahui aspek biologi reproduksi ikan C. cynoglossus yang mencakup ukuran ikan pertama kali matang gonad, musim dan tipe pemijahan. Penelitian dilakukan pada Januari-Desember 2015 di perairan Teluk Pabean, Kabupaten Indramayu. Pengambilan contoh dilakukan setiap bulan sekali dengan menggunakan alat tangkap sero. Diperoleh jenis ikan 613 ekor terdiri dari 290 ekor ikan jantan dan 323 ekor betina. Distribusi ukuran panjang total berkisar Antara 46-117 mm (jantan), 61-126 mm (betina) dengan bobot tubuh berkisar antara 0,57-8,75 g (jantan), dan 2,81-16,72 g (betina). Ukuran ikan betina pertama kali matang gonad pada panjang total 105,5 mm. Ikan ini termasuk pemijah bertahap dengan jumlah telur berkisar antara 2.657-39.647 butir. In the Pabean Bay, Tonguesole (Cynoglossidae) has important value to the community. This research aims to investigate some reproductive biology aspects of tongue sole, namely length at first maturity, spawning season and type of spawn. The research conducted in January to December 2015 in the Pabean Bay, Indramayu. Monthly enumeration conducted from sample that collected through trap net by 613 fishes (290 males and 323 females). The total length of fish ranged from 46 to 117 mm (males), 61 to 126 mm (females). While, the body weight of the fish ranged from 0.57 to 8.75 gram (males), 2.81 to 16.72 gram (females). The results showed that the first maturity of the female is about 105.5 mm total length. This species is probably a batch spawner with the number of eggs ranges from 2657 to 39647 grains.
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6

贾, 磊. "Analysis of Population Genetic Diversity of Cynoglossus cynoglossus Based on 2b-RAD Simplified Genome Sequencing." Open Journal of Fisheries Research 04, no. 04 (2017): 125–33. http://dx.doi.org/10.12677/ojfr.2017.44020.

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7

Ma, Hongyu, Songlin Chen, Jing Li, Jin-Zhen Bi, and Tianjun Xu. "Cloning, characterization of two female-specific AFLP markers and development of PCR-based sex identification method for the half-smooth tongue sole Cynoglossus semilaevis." Current Zoology 55, no. 4 (August 1, 2009): 309–14. http://dx.doi.org/10.1093/czoolo/55.4.309.

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Abstract Two female-specific AFLP (amplified fragment length polymorphism) markers (named CseF464 and CseF136) were isolated by using one selective primer combination (E-AGC/M-CTG) from the genomic DNA of 20 females and 20 males of the half-smooth tongue sole Cynoglossus semilaevis. Both the markers were re-amplified, recovered from the agarose gels, cloned and sequenced. Bioinformatics analysis indicated that the length of the two markers were 468 bp and 134 bp, respectively, and the sequences showed no similarity to each other, as well as to the known sequences deposited in the GenBank database using BLASTn. Two pairs of SCAR (sequence characterized amplified regions) primers were designed based on the sequences of the two female-specific markers. Furthermore, PCR-based genetic sex identification method was developed in Cynoglossus semilaevis. A specific fragment was amplified in all females but not in any males by using these SCAR primers on the initial 20 female and 20 male individuals of Cynoglossus semilaevis. The feasibility of the two SCAR primer pairs was confirmed in additional 100 individuals (50 females and 50 males). This allowed for reliable, rapid molecular identification of genetic sex of the species, genetic mapping on the sex chromosomes and better understanding of the sex determination and sex differentiation in the half smooth tongue sole.
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8

Hu, Yong-hua, Bo-guang Sun, Tian Deng, and Li Sun. "Molecular characterization of Cynoglossus semilaevis CD28." Fish & Shellfish Immunology 32, no. 5 (May 2012): 934–38. http://dx.doi.org/10.1016/j.fsi.2012.02.021.

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9

BAECK, Gun Wook, and Sung-Hoi HUH. "Age and Growth of Three-lined Tonguefish (Cynoglossus abbreviatus) (Soleidae; Teleostei)." Korean Journal of Fisheries and Aquatic Sciences 37, no. 1 (February 1, 2004): 51–56. http://dx.doi.org/10.5657/kfas.2004.37.1.051.

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10

Gu, Seon-Ok, Hak-Jin Hwang, and Jin-Koo Kim. "Morphological Description of Cynoglossus joyneri Larvae Collected from the Yellow Sea." Korean Journal of Fisheries and Aquatic Sciences 42, no. 6 (December 31, 2009): 725–28. http://dx.doi.org/10.5657/kfas.2009.42.6.725.

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11

Gong, Li, Xinting Lu, Hairong Luo, Ying Zhang, Wei Shi, Liqin Liu, Zhenming Lü, Bingjian Liu, and Lihua Jiang. "Novel gene rearrangement pattern in Cynoglossus melampetalus mitochondrial genome: New gene order in genus Cynoglossus (Pleuronectiformes: Cynoglossidae)." International Journal of Biological Macromolecules 149 (April 2020): 1232–40. http://dx.doi.org/10.1016/j.ijbiomac.2020.02.017.

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12

Taiwo, I. O., and O. A. Olopade. "Size Composition of Fish By-Catch Species from Industrial Shrimp Trawl Fishery in Nigerian Coastal Waters." ILMU KELAUTAN: Indonesian Journal of Marine Sciences 22, no. 4 (December 13, 2017): 169. http://dx.doi.org/10.14710/ik.ijms.22.4.169-173.

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Fish species composition of by-catch in the industrial shrimp trawl fishery in Nigeria was investigated with the Sciaenidae family being the most prevalent by-catch fish species. In order of prevalence Pseudolithus elongatus with a mean weight and length of 15.28g and 86.39mm, respectively and Pseudolithus typus (n= 102) having an average weight of 18.76g and mean length of 88.01mm. Other fish by-catch species include Pseudolithus senegalensis (n= 99, mean weigh = 15.49g, mean length= 88.60mm); Galeoides decadactylus (n= 59, mean weight= 15.26g, mean length= 87.66mm); Pteroscion peli (n= 48, mean weight= 16.05g, mean length = 88.23mm); Drepane africana (n= 33, mean weight= 13.29g, mean length= 45.73mm) and Cynoglossus senegalensis (n= 11, mean weight= 21.78g, mean length = 86.45mm). Despite the small number of Cynoglossus senegalensis, it had the highest weight contribution to the by-catch. Significant (P<0.01) relationship exists between weight and length of fish species. The adjusted R2 of the parameters indicated that 19.4% of the weight gained is accounted for by increase in length of Pseudolithus elongatus; 1.7% in Pseudolithus typus; 31.7% in Pseudolithus senegalensis; 13.7% in Galeoides decadactylus; 7.8% in Pteroscion peli; 57.4% in Drepane Africana; and 48.9% in Cynoglossus senegalensis. The by-catch associated with shrimp trawls should be properly monitored and controlled to reduce the quantity of non-target fish species in their catch. Also, the use of diamond-shaped 44mm mesh size for shrimp should be encouraged or made mandatory for fishers to reduce fish by-catch. Keywords: Shrimp, by-catch, fishery, weight
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13

Wang, Lijuan, Zhihao Wu, Mengxia Liu, Wei Liu, Wenxi Zhao, Hongjun Liu, and Feng You. "DNA barcoding of marine fish species from Rongcheng Bay, China." PeerJ 6 (June 25, 2018): e5013. http://dx.doi.org/10.7717/peerj.5013.

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Rongcheng Bay is a coastal bay of the Northern Yellow Sea, China. To investigate and monitor the fish resources in Rongcheng Bay, 187 specimens from 41 different species belonging to 28 families in nine orders were DNA-barcoded using the mitochondrial cytochrome c oxidase subunit I gene (COI). Most of the fish species could be discriminated using this COI sequence with the exception of Cynoglossus joyneri and Cynoglossus lighti. The average GC% content of the 41 fish species was 47.3%. The average Kimura 2-parameter genetic distances within the species, genera, families, and orders were 0.21%, 5.28%, 21.30%, and 23.63%, respectively. Our results confirmed that the use of combined morphological and DNA barcoding identification methods facilitated fish species identification in Rongcheng Bay, and also established a reliable DNA barcode reference library for these fish. DNA barcodes will contribute to future efforts to achieve better monitoring, conservation, and management of fisheries in this area.
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14

LIAO, X., C. W. SHAO, Y. S. TIAN, and S. L. CHEN. "Polymorphic dinucleotide microsatellites in tongue sole (Cynoglossus semilaevis)." Molecular Ecology Notes 7, no. 6 (November 2007): 1147–49. http://dx.doi.org/10.1111/j.1471-8286.2007.01812.x.

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15

Song, Ha Yeun, Jin-Koo Kim, Seonmi Jo, Seung-Hyun Jung, Dae-Sung Lee, Bora Kim, Young Ji Choi, and Jong Su Yoo. "Gene rearrangements in the mitochondrial genome of robust tonguefish, Cynoglossus robustus (Pleuronectiformes: Cynoglossidae) and a comparative analysis with other Cynoglossus fishes." Mitochondrial DNA Part B 5, no. 1 (December 23, 2019): 353–54. http://dx.doi.org/10.1080/23802359.2019.1637297.

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16

Hendrayana, Hendrayana, and Ninik Umi Hartanti. "PRODUKTIVITAS PERIKANAN TANGKAP KOTA TEGAL." SAINTEK PERIKANAN : Indonesian Journal of Fisheries Science and Technology 14, no. 1 (August 28, 2018): 77. http://dx.doi.org/10.14710/ijfst.14.1.77-80.

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Produktivitas perikanan tangkap Kota Tegal cenderung fluktuatif. Penelitian ini bertujuan untuk mengetahui laju pertumbuhan alat tangkap cantrang dan untuk mengetahui produktifitas perikanan tangkap di Kota Tegal Penelitian ini menggunakan metode penelitian deskriptif dan pengambilan sampel dilakukan dengan metode purposive sampling method. Hasil penelitian menunjukkan bahwa 90% kapal di PPP Tegalsari merupakan kapal cantrang. Hasil tangkapan ikan dari tahun 2015-2017 menurun sebesar 30,11%. Ikan ekonomis seperti kakap merah (Lutjanus bitaeniatus), ikan lidah (Cynoglossus lingua), ikan pari (Dasyatis sp), rajungan (Portunus pelagicus) sulit ditemukan di Perairan Tegal. Zona penangkapan berubah dimana awalnya dilakukan di Kawasan Perairan Tegal saat penangkapan dilakukan hingga Kawasan perairan kalimantan. Tegal capture fisheries productivity is fluctuating. The aims of this research was to determained cantrang fishing gear and Tegal capture fisheries productivity. The descriptive method and purposive sampling method was applied in this research. The results showed that 90% of the ship at PPP Tegalsari ships was cantrang ships. Fish catch from 2015-2017 decreased by 30.11%. Economic fish like Lutjanus bitaeniatus , Cynoglossus lingua , Dasyatis sp and Portunus pelagicus hard to find at Tegal Water. There need to be fishing gear and fish target in fishing activities.
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17

LI, Wenlong, Songlin CHEN, Xiangshan JI, Mingshu XIE, Ying XU, and Han DENG. "Induction and identification of tetraploid fry in Cynoglossus semilaevis." Journal of Fishery Sciences of China 19, no. 2 (August 9, 2013): 196–201. http://dx.doi.org/10.3724/sp.j.1118.2012.00196.

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18

Ren, Li-Hua, Tao Xu, Guo-Hua Sun, Fan Li, and Wei-Jun Wang. "The complete mitochondrial genome of Cynoglossus joyneri (Teleostei: Pleuronectiformes)." Mitochondrial DNA Part B 1, no. 1 (January 1, 2016): 845–46. http://dx.doi.org/10.1080/23802359.2016.1192512.

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Zealous Gietbong, Fantong, Nack-Keun Kim, Sapto Andriyono, and Hyun-Woo Kim. "Characterization of the mitogenome of Cynoglossus Senegalensis (Pleuronectiformes: Cynoglossidae)." Mitochondrial DNA Part B 3, no. 2 (July 3, 2018): 1191–92. http://dx.doi.org/10.1080/23802359.2018.1524728.

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20

KUSAKABE, TAKAYUKI. "Age and growth of robust tonguefish Cynoglossus robustus in Osaka Bay, Japan." NIPPON SUISAN GAKKAISHI 77, no. 1 (2011): 1–7. http://dx.doi.org/10.2331/suisan.77.1.

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21

LIU, Xu-Dong, Meng-Qing LIANG, Li-Min ZHANG, Ji-Ying WANG, Qing CHANG, Jia-Lin WANG, and YANNIS Kotzamanis. "TONGUE SOLE (CYNOGLOSSUS SEMILAEVIS GÜNTHER, 1873) POST-LARVAE." Acta Hydrobiologica Sinica 36, no. 2 (April 8, 2010): 242–49. http://dx.doi.org/10.3724/sp.j.1035.2009.00242.

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22

Baeck, Gun Wook, and Jae Won Kim. "Maturation and Spawning of Robust Tonguefish (Cynoglossus robustus (Soleidae; Teleostei)." Fisheries and aquatic sciences 7, no. 3 (September 1, 2004): 136–40. http://dx.doi.org/10.5657/fas.2004.7.3.136.

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23

Li, Hailong, Wenteng Xu, Ying Zhu, Ning Zhang, Jialu Ma, Ai Sun, Zhongkai Cui, et al. "Characterization and expression pattern of r-spondin1 in Cynoglossus semilaevis." Journal of Experimental Zoology Part B: Molecular and Developmental Evolution 328, no. 8 (October 17, 2017): 772–80. http://dx.doi.org/10.1002/jez.b.22774.

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24

Chen, Ling, and Li Sun. "Cathepsin B of Cynoglossus semilaevis: Identification, expression, and activity analysis." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 161, no. 1 (January 2012): 54–59. http://dx.doi.org/10.1016/j.cbpb.2011.09.008.

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Chen, Shixi, Jiangxing Dong, Hairong Luo, Wei Shi, and Xiaoyu Kong. "The complete mitochondrial genome sequence of Cynoglossus roulei (Pleuronectiformes: Cynoglossidae)." Mitochondrial DNA Part B 4, no. 1 (January 2, 2019): 1443–44. http://dx.doi.org/10.1080/23802359.2019.1598821.

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Mohammed, Ameer A. "Studies of Some Physical Properties of the extracted gelatin from Cynoglossus bilineatus skin." IRAQI JOURNAL OF AQUACULTURE 13, no. 2 (2016): 165–78. http://dx.doi.org/10.21276/ijaq.2016.13.2.5.

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27

Obiekezie, A. I., and R. Lick. "Kudoa cynoglossi n. sp., a New Species of KudoaMeglitsch (Myxosporea: Multivalvulida) from the West African Tongue Sole, Cynoglossus senegalensis (Kaup) (Teleostei: Cynoglossidae)." Archiv für Protistenkunde 144, no. 2 (July 1994): 201–5. http://dx.doi.org/10.1016/s0003-9365(11)80128-4.

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28

Ye, Zhan, Weifeng Wang, Yaqun Zhang, Liping Wang, Yu Cui, and Hengde Li. "Integrative analysis reveals pathways associated with sex reversal in Cynoglossus semilaevis." PeerJ 8 (March 19, 2020): e8801. http://dx.doi.org/10.7717/peerj.8801.

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Sex reversal is a complex biological phenomenon exhibited by Cynoglossus semilaevis. Some genetic females may irreversibly convert to pseudomales, thus increasing aquaculture costs because males grow much more slowly than females. In this study, an integrative analysis of transcriptome and proteome was performed to compare differences in gene and protein expression in females and pseudomales after gonad differentiation in C. semilaevis. Based on RNA-Seq results, 1893 genes showed differences in expression at the transcript level between females and pseudomales. Of these differentially expressed genes (DEGs), zona pellucida sperm-binding protein 4-like (LOC103393374 , ZP4), zona pellucida sperm-binding protein 4-like (LOC103396071, ZP4) and forkhead box L2 (foxl2) were highly expressed in females and doublesex and mab-3 related transcription factor 1(dmrt1) and doublesex and mab-3 related transcription factor 3 (dmrt3) were highly expressed in pseudomales. GO enrichment analysis results indicate that wnt signaling pathways and oocyte maturation are two terms enriched in female. At the protein level, Tandem Mass Tags analysis revealed that 324 proteins differed in their relative abundance between pseudomales and females. KEGG analysis found that pseudo-highly expressed proteins were enriched in the ubiquitin mediated proteolysis pathway. For integrative analysis, the Spearman correlation coefficient between the transcriptome and proteome was 0.59. Among 52 related genes, 46 DEGs (88%) were well matched in their levels of change in protein abundance. These findings reveal major active pathways in female and pseudomale gonads after sex reversal and provide new insights into molecular mechanisms associated with sex reversal regulatory network.
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Tian, SiLin, Chen Wang, Yunrong Yan, and Xiao Chen. "Characterization of the complete mitochondrial genome of Cynoglossus nanhaiensis (Pleuronectiformes: Cynoglossidae)." Mitochondrial DNA Part B 5, no. 3 (June 26, 2020): 2613–14. http://dx.doi.org/10.1080/23802359.2020.1781582.

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30

Bo, Zhang, Jia Lei, Liu Kefeng, and Sun Jinsheng. "The complete mitochondrial genome of Cynoglossus joyneri and its novel rearrangement." Mitochondrial DNA Part B 2, no. 2 (September 1, 2017): 581–82. http://dx.doi.org/10.1080/23802359.2017.1365642.

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31

Yokogawa, Kōji, Hideo Sakaji, Hiromitsu Endo, and Atsuko Yamaguchi. "Genetic divergence between two forms of a tongue sole Cynoglossus interruptus." Ichthyological Research 55, no. 1 (January 5, 2008): 78–81. http://dx.doi.org/10.1007/s10228-007-0002-5.

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Zhang, Bo, Na Zhao, Yangyang Liu, Lei Jia, Yan Fu, Xiaoxu He, Kefeng Liu, Zijing Xu, and Baolong Bao. "Novel molecular markers for high-throughput sex characterization of Cynoglossus semilaevis." Aquaculture 513 (November 2019): 734331. http://dx.doi.org/10.1016/j.aquaculture.2019.734331.

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Sun, Jin-sheng, Lu Zhao, and Li Sun. "Interleukin-8 of Cynoglossus semilaevis is a chemoattractant with immunoregulatory property." Fish & Shellfish Immunology 30, no. 6 (June 2011): 1362–67. http://dx.doi.org/10.1016/j.fsi.2011.03.023.

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Sun, Jin-sheng, Yong-xin Li, and Li Sun. "Cynoglossus semilaevis thioredoxin: a reductase and an antioxidant with immunostimulatory property." Cell Stress and Chaperones 17, no. 4 (January 18, 2012): 445–55. http://dx.doi.org/10.1007/s12192-012-0322-x.

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Al-Hassoon, Ahmed Shihab, and Nawres AbdulGhany Al-Faiez Qusay Hamid Al-Hamdany. "Developed method for producing fish protein concentrate from marine fish tongue sole Cynoglossus bilineatus." IRAQI JOURNAL OF AQUACULTURE 7, no. 1 (2010): 55–64. http://dx.doi.org/10.21276/ijaq.2010.7.1.4.

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Brander, Keith, and Peter C. F. Hurley. "Distribution of Early-Stage Atlantic Cod (Gadus morhua), Haddock (Melanogrammus aeglefinus), and Witch Flounder (Glyptocephalus cynoglossus) Eggs on the Scotian Shelf: A Reappraisal of Evidence on the Coupling of Cod Spawning and Plankton Production." Canadian Journal of Fisheries and Aquatic Sciences 49, no. 2 (February 1, 1992): 238–51. http://dx.doi.org/10.1139/f92-028.

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Abstract:
In spring, Atlantic cod (Gadus morhua) spawned progressively later from southwest to northeast along the Scotian Shelf and matched the variation in peak abundance of Calanus finmarchicus. In fall, cod spawned in some, but not all, areas where Calanus were abundant. This is consistent with the hypothesis that cod spawning is coupled to copepod production, which is a part of the "match–mismatch" hypothesis proposed by D. H. Cushing. The timing of spawning was estimated from the distributions of early- and late-stage eggs of cod, haddock (Melanogrammus aeglefinus), and witch flounder (Glyptocephalus cynoglossus) collected during Scotian Shelf Ichthyoplankton Survey (SSIP) cruises in 1979–81.
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JI, Xiang-shan, Song-lin CHEN, Hong-yu MA, Yun-liang JIANG, Jing-feng YANG, and Xiao-li DONG. "Natural sex reversal of female Cynoglossus semilaevis in rearing populations." JOURNAL OF FISHERIES OF CHINA 34, no. 2 (December 2, 2010): 322–27. http://dx.doi.org/10.3724/sp.j.1231.2010.06090.

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CHEN, Song-lin, Wen-long LI, Xiang-shan JI, Ming-shu XIE, Ying XU, and Han DENG. "Induction and identification of artificial triploid fry in Cynoglossus semilaevis." JOURNAL OF FISHERIES OF CHINA 35, no. 6 (June 21, 2012): 925–31. http://dx.doi.org/10.3724/sp.j.1231.2011.17344.

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Wang, Kailin, Hong Zhang, Qiaomu Hu, Changwei Shao, and Songlin Chen. "Expression and purification of half-smooth tongue sole (Cynoglossus semilaevis) CSDAZL protein." Protein Expression and Purification 102 (October 2014): 8–12. http://dx.doi.org/10.1016/j.pep.2014.07.006.

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Jiang, Liming, Guannan Chu, Quanqi Zhang, Zhigang Wang, Xubo Wang, Jieming Zhai, and Haiyang Yu. "A microsatellite genetic linkage map of half smooth tongue sole (Cynoglossus semilaevis)." Marine Genomics 9 (March 2013): 17–23. http://dx.doi.org/10.1016/j.margen.2012.07.002.

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Wang, Wei, Zhi-zhong Xiao, and Li Sun. "The megalocytivirus-induced protein CsMig1 enhances Cynoglossus semilaevis resistance against viral infection." Veterinary Immunology and Immunopathology 151, no. 1-2 (January 2013): 173–79. http://dx.doi.org/10.1016/j.vetimm.2012.11.005.

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Zhu, Ying, Zhongkai Cui, Yingming Yang, Wenteng Xu, Changwei Shao, Xiaoqin Fu, Yangzhen Li, and Songlin Chen. "Expression analysis and characterization of dmrt2 in Chinese tongue sole (Cynoglossus semilaevis)." Theriogenology 138 (October 2019): 1–8. http://dx.doi.org/10.1016/j.theriogenology.2019.06.035.

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Di, Wu, Zhang Shicui, ZHUANG Zhimeng, Pang Qiuxiang, Wang Changliu, and Wan Ruijing. "C-banding pattern and nucleolar organizer regions of Cynoglossus semilaevis Gunther, 1873*." Progress in Natural Science 16, no. 7 (July 1, 2006): 769–72. http://dx.doi.org/10.1080/10020070612330067.

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Chen, Song-Lin, Yong-Sheng Tian, Jing-Feng Yang, Chang-Wei Shao, Xiang-Shan Ji, Jie-Ming Zhai, Xiao-Lin Liao, et al. "Artificial Gynogenesis and Sex Determination in Half-Smooth Tongue Sole (Cynoglossus semilaevis)." Marine Biotechnology 11, no. 2 (September 9, 2008): 243–51. http://dx.doi.org/10.1007/s10126-008-9139-0.

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Wang, Zhongkai, Jinning Gao, Huayu Song, Xiaomeng Wu, Yan Sun, Jie Qi, Haiyang Yu, Zhigang Wang, and Quanqi Zhang. "Sexually Dimorphic Expression of vasa Isoforms in the Tongue Sole (Cynoglossus semilaevis)." PLoS ONE 9, no. 3 (March 26, 2014): e93380. http://dx.doi.org/10.1371/journal.pone.0093380.

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Tan, Jing, Xiucai Hu, Aijun Lü, Xiaoxue Liu, Jingfeng Sun, and Yuchen Niu. "Skin proteome profiling of tongue sole (Cynoglossus semilaevis) challenged with Vibrio vulnificus." Fish & Shellfish Immunology 106 (November 2020): 1052–66. http://dx.doi.org/10.1016/j.fsi.2020.09.020.

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Kusaka, Koji, Ryota Fujita, Kana Ogura, Takafumi Nasu, and Masato Aritaki. "Studies on morphological abnormalities in hatchery-reared three-lined tonguefish Cynoglossus abbreviatus." Fisheries Science 82, no. 6 (August 24, 2016): 961–68. http://dx.doi.org/10.1007/s12562-016-1022-8.

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Liu, Yun-Guo, Ling-Xiao Liu, and Shi-Chao Xing. "Development and characterization of thirteen polymorphic microsatellite loci in the Cynoglossus semilaevis." Conservation Genetics Resources 6, no. 3 (April 3, 2014): 683–84. http://dx.doi.org/10.1007/s12686-014-0181-0.

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Chen, Song-Lin, Si-Ping Deng, Hong-Yu Ma, Yong-Sheng Tian, Jian-Yong Xu, Jing-Feng Yang, Qing-Yin Wang, et al. "Molecular marker-assisted sex control in half-smooth tongue sole (Cynoglossus semilaevis)." Aquaculture 283, no. 1-4 (October 2008): 7–12. http://dx.doi.org/10.1016/j.aquaculture.2008.07.015.

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Liu, Jinxiang, Wei Zhang, Yan Sun, Zhigang Wang, Quanqi Zhang, and Xubo Wang. "Molecular characterization and expression profiles of GATA6 in tongue sole (Cynoglossus semilaevis)." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 198 (August 2016): 19–26. http://dx.doi.org/10.1016/j.cbpb.2016.03.006.

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