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紜曞+鐢熷煿鍏誨甯堟湵鍏嬭瘹錛堟按浜у吇孌栵級(jí)
鏈卞厠璇氾紝鐢鳳紝1986騫?鏈堝嚭鐢燂紝鍗氬+錛屽壇鐮旂┒鍛橈紝鐜頒負(fù)姹熻嫃嫻鋒磱澶у銆佸ぉ媧ュ啘瀛﹂櫌紜曞+鐢熷甯堬紝騫夸笢鐪佹搗姘撮奔浜т笟鎶鏈綋緋誨矖浣嶇瀛﹀-嫻鋒按楸艱偛縐嶅矖浣嶇瀛﹀錛屼富瑕佷粠浜嬫搗姘撮奔綾婚仐浼犺偛縐嶃侀噸瑕佺粡嫻庢х姸鐨勫姛鑳藉熀鍥犳寲鎺樺拰姘翠駭縐嶈川璧勬簮璇勪環(huán)涓庣璐ㄥ垱鏂板埄鐢ㄦ柟闈㈢殑鐮旂┒銆傝繎騫存潵鍏堝悗涓繪寔浜?jiǎn)骞夸笢鐪併佹搗鍗楃渷鑷劧縐戝鍩洪噾鍜屽箍涓滅渷娓斾笟鍘呯鎶鏀誨叧涓庣爺鍙戠瓑欏圭洰鍗佷綑欏癸紝鍙備笌浜?jiǎn)鍥藉鑷劧绉戝鍩洪噾閲嶇倸w」鐩佸浗瀹墮噸鐐圭爺鍙戣鍒掑拰鍥藉嫻鋒按楸間駭涓氫綋緋葷瓑欏圭洰鍏辮浜屽崄浣欓」錛屼互絎竴浣滆呭拰閫氳浣滆呭彂琛ㄨ鏂?9綃囷紝鍏朵腑SCI璁烘枃36綃囥傝幏鎺堟潈鍥藉鍙戞槑涓撳埄16欏癸紝杞歡钁椾綔鏉?欏癸紝鑾峰緱鐪侀儴綰х鎶濂栧姳6欏規(guī)錛屾垚鏋滈壌瀹?欏廣傝幏寰?019騫村害鈥滈櫌鍏堣繘宸ヤ綔鑰呪濈О鍙鳳紱2021騫村叆閫変腑鍥芥按浜х瀛︾爺絀墮櫌鈥滅櫨鍚嶇鎶鑻辨墠鍩硅偛璁″垝鈥濄?022騫磋幏寰椾簡(jiǎn)嫻峰崡鑷敱璐告槗娓珮灞傛浜烘墠E綾諱漢鎵嶃備換Genes銆丗rontiers in Marine Science絳夊浗闄呮湡鍒奼uest editor銆?/p>
涓昏浠h〃鎬ц鏂囷細(xì)
1. Zhu KC, Zhang N, Liu BS, Guo L, Guo HY, Jiang SG, Zhang DC. A chromosome-level genome assembly of the yellowfin seabream (Acanthopagrus latus; Hottuyn, 1782) provides insights into its osmoregulation and sex reversal. Genomics, 2021, 113: 1617鈥?627.
2. Zhu KC, Guo HY, Guo L, Liu BS, Zhang N, Jiang SG, Zhang DC. Nuclear Factor-魏B Plays a Positive Role in TNF偽 Expression in Golden Pompano, Trachinotus ovatus (Linnaeus 1758). Frontiers in Marine Science, 2022, 9, 884892.
3. Zhu KC, Zhang N, Liu BS, Guo L, Guo HY, Jiang SG, Zhang DC. Functional analysis of IRF1 reveals its role in the activation of the Type I IFN pathway in golden pompano, Trachinotus ovatus (Linnaeus 1758). International Journal of Molecular Sciences, 2020, 21, 2652.
4. Zhu KC, Liu BS, Guo HY, Zhang N, Guo L, Jiang SG, Zhang DC. Functional analysis of two MyoDs revealed their role in the activation of myomixer expression in yellowfin seabream (Acanthopagrus latus) (Hottuyn, 1782). International journal of biological macromolecules, 2020, 156, 1081-1090.
5. Zhang DC*, Guo L#, Guo HY#, Zhu KC#, Li SQ, Zhang Y, Zhang N, Liu BS, Jiang SG, Li JT*. Chromosome-level genome assembly of golden pompano (Trachinotus ovatus) in the family Carangidae. Scientific Data. 2019, 6(1): 216.
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閫氳鍦板潃錛氬箍宸炲競(jìng)鏂版腐瑗胯礬231鍙?/p>
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