Characterization of Wnt genes in Argopecten scallops and their involvement in response to different temperature stresses in “Bohai Red” scallops

As “Bohai Red” scallops were originated from the hybrids between the Peruvian scallop ( Argopecten purpuratus ) and the bay scallop ( Argopecten irradians ) northern subspecies ( Argopecten irradians irradians ). Twelve Wnt members were identified from the two subspecies of bay scallop, and 13 Wnt g...

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Published in	Journal of oceanology and limnology Vol. 41; no. 3; pp. 1122 - 1132
Main Authors	Wang, Caihui, Lei, Shuhua, Chen, Min, Ning, Junhao, Lu, Xia, Zhang, Jinsheng, Liu, Bo, Wang, Chunde
Format	Journal Article
Language	English
Published	Heidelberg Science Press 01.05.2023 Springer Nature B.V Qingdao Agricultural University,Qingdao 266109,China%Yantai Institute of Coastal Zone Research,Chinese Academy of Sciences,Yantai 264003,China%Zhaoyuan Xiadian Agricultural Technology Promotion Station,Yantai 265415,China%Qingdao Agricultural University,Qingdao 266109,China Yantai Institute of Coastal Zone Research,Chinese Academy of Sciences,Yantai 264003,China
Subjects	Argopecten irradians Argopecten purpuratus Biology cold stress Earth and Environmental Science Earth Sciences Evolution Evolutionary genetics Gene expression Genes Genomes Heat resistance heat stress High temperature Homeostasis Hybrids Low temperature Marine molluscs Mollusks Nucleotide sequence Oceanography PCR Phylogenetics Phylogeny Protein structure Scallops Stresses temperature Temperature effects Wnt protein wnt proteins Peruvian scallop bay scallop “Bohai Red” scallops gene temperature change qRT-PCR Wnt gene "Bohai Red"scallops
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ISSN	2096-5508 2523-3521
DOI	10.1007/s00343-022-1438-1

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Abstract	As “Bohai Red” scallops were originated from the hybrids between the Peruvian scallop ( Argopecten purpuratus ) and the bay scallop ( Argopecten irradians ) northern subspecies ( Argopecten irradians irradians ). Twelve Wnt members were identified from the two subspecies of bay scallop, and 13 Wnt genes were found in the genome of the Peruvian scallop. Protein structure analyses showed that most Wnt genes poses all 5 conserved motifs except Wnt1, Wnt2, Wnt6 , and Wnt9 in the bay scallops and Wnt2 and Wnt9 in the Peruvian scallop. Unexpectedly, Wnt8 gene was present while Wnt3 was absent in both the bay scallops and the Peruvian scallop. Phylogenetic analysis revealed that Wnt3 might have disappeared in the early evolution of mollusks. The expression profile of Wnt genes in the “Bohai Red” exposed to different temperatures was examined by qRT-PCR. Results show that expression of Wnt genes responded differentially to temperature changes. The Wnt genes such as Wnt1, Wnt6, Wnt7, Wnt11 , and WntA that responded slowly to low and high temperature stresses may be related to the maintenance of basic homeostasis. Other Wnt genes such as Wnt4, Wnt9, Wnt5 , and Wnt2 that responded rapidly to low temperature may play an important role in organismal protection against low temperature stress. And yet some Wnt genes including Wnt10, Wnt16 , and Wnt8 that responded quickly to high temperature stress may play key roles in response to high temperature stress. The results provide new insights into the evolution and function of Wnt genes in bivalves and eventually benefit culture of “Bohai Red” scallops.
AbstractList	As “Bohai Red” scallops were originated from the hybrids between the Peruvian scallop ( Argopecten purpuratus ) and the bay scallop ( Argopecten irradians ) northern subspecies ( Argopecten irradians irradians ). Twelve Wnt members were identified from the two subspecies of bay scallop, and 13 Wnt genes were found in the genome of the Peruvian scallop. Protein structure analyses showed that most Wnt genes poses all 5 conserved motifs except Wnt1, Wnt2, Wnt6 , and Wnt9 in the bay scallops and Wnt2 and Wnt9 in the Peruvian scallop. Unexpectedly, Wnt8 gene was present while Wnt3 was absent in both the bay scallops and the Peruvian scallop. Phylogenetic analysis revealed that Wnt3 might have disappeared in the early evolution of mollusks. The expression profile of Wnt genes in the “Bohai Red” exposed to different temperatures was examined by qRT-PCR. Results show that expression of Wnt genes responded differentially to temperature changes. The Wnt genes such as Wnt1, Wnt6, Wnt7, Wnt11 , and WntA that responded slowly to low and high temperature stresses may be related to the maintenance of basic homeostasis. Other Wnt genes such as Wnt4, Wnt9, Wnt5 , and Wnt2 that responded rapidly to low temperature may play an important role in organismal protection against low temperature stress. And yet some Wnt genes including Wnt10, Wnt16 , and Wnt8 that responded quickly to high temperature stress may play key roles in response to high temperature stress. The results provide new insights into the evolution and function of Wnt genes in bivalves and eventually benefit culture of “Bohai Red” scallops. As “Bohai Red” scallops were originated from the hybrids between the Peruvian scallop (Argopecten purpuratus) and the bay scallop (Argopecten irradians) northern subspecies (Argopecten irradians irradians). Twelve Wnt members were identified from the two subspecies of bay scallop, and 13 Wnt genes were found in the genome of the Peruvian scallop. Protein structure analyses showed that most Wnt genes poses all 5 conserved motifs except Wnt1, Wnt2, Wnt6, and Wnt9 in the bay scallops and Wnt2 and Wnt9 in the Peruvian scallop. Unexpectedly, Wnt8 gene was present while Wnt3 was absent in both the bay scallops and the Peruvian scallop. Phylogenetic analysis revealed that Wnt3 might have disappeared in the early evolution of mollusks. The expression profile of Wnt genes in the “Bohai Red” exposed to different temperatures was examined by qRT-PCR. Results show that expression of Wnt genes responded differentially to temperature changes. The Wnt genes such as Wnt1, Wnt6, Wnt7, Wnt11, and WntA that responded slowly to low and high temperature stresses may be related to the maintenance of basic homeostasis. Other Wnt genes such as Wnt4, Wnt9, Wnt5, and Wnt2 that responded rapidly to low temperature may play an important role in organismal protection against low temperature stress. And yet some Wnt genes including Wnt10, Wnt16, and Wnt8 that responded quickly to high temperature stress may play key roles in response to high temperature stress. The results provide new insights into the evolution and function of Wnt genes in bivalves and eventually benefit culture of “Bohai Red” scallops.
Author	Ning, Junhao Zhang, Jinsheng Liu, Bo Lei, Shuhua Wang, Chunde Chen, Min Wang, Caihui Lu, Xia
AuthorAffiliation	Qingdao Agricultural University,Qingdao 266109,China%Yantai Institute of Coastal Zone Research,Chinese Academy of Sciences,Yantai 264003,China%Zhaoyuan Xiadian Agricultural Technology Promotion Station,Yantai 265415,China%Qingdao Agricultural University,Qingdao 266109,China;Yantai Institute of Coastal Zone Research,Chinese Academy of Sciences,Yantai 264003,China
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CitedBy_id	crossref_primary_10_1007_s10126_024_10348_2 crossref_primary_10_1007_s13258_024_01579_7 crossref_primary_10_1016_j_aquaculture_2025_742451
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Snippet	As “Bohai Red” scallops were originated from the hybrids between the Peruvian scallop ( Argopecten purpuratus ) and the bay scallop ( Argopecten irradians )... As “Bohai Red” scallops were originated from the hybrids between the Peruvian scallop (Argopecten purpuratus) and the bay scallop (Argopecten irradians)... As"Bohai Red"scallops were originated from the hybrids between the Peruvian scallop(Argopecten purpuratus)and the bay scallop(Argopecten irradians)northern...
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SubjectTerms	Argopecten irradians Argopecten purpuratus Biology cold stress Earth and Environmental Science Earth Sciences Evolution Evolutionary genetics Gene expression Genes Genomes Heat resistance heat stress High temperature Homeostasis Hybrids Low temperature Marine molluscs Mollusks Nucleotide sequence Oceanography PCR Phylogenetics Phylogeny Protein structure Scallops Stresses temperature Temperature effects Wnt protein wnt proteins
Title	Characterization of Wnt genes in Argopecten scallops and their involvement in response to different temperature stresses in “Bohai Red” scallops
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