1 The Abiotic Stress Response of Some Key Genes in Apis cerana cerana
1.1 Two Small Heat Shock Protein Genes in Apis cerana cerana: Characterization,Regulation, and Developmental Expression
1.2 sHsp22.6 , an Intronless Small Heat Shock Protein Gene, Is Involved in Stress Defence and Develomn i Apis cerana cerana
1.3 Molecular Cloning and Characterization of Hsp27.6 : the First Reported Small Heat Shock Protein from Apis cerana cerana
1.4 Molecular Characterization and Immunohistochemical Localization of a Mitogenactivated Protein Kinase Gene, Accp38b, from Apis cerana cerana
1.5 AccERK2, A Map Kinase Gene from Apis cerana cerana, Plays Roles in Stress Responses, Developmental Processes, and the Nervous System
1.6 A Typical RNA Binding Protein Gene (AccRBM11) in Apis cerana cerana: Characterization of AccRBM11 and Issible Involvement in Develomn ad Stress Responses
1.7 Isolation of Arginine Kinase from Apis cerana cerana and Issible Involvement in Response to Adverse Stress
1.8 Molecular Cloning and Characterization of Two Nicotinic Acetylcholine Receptor β Subunit Genes from Apis cerana cerana
1.9 Molecular Cloning and Characterization under Different Stress Conditions of Insulin-like Peptide 2 (AccILP-2) Gene from Apis cerana cerana
1.10 Molecular Cloning, Expression and Stress Response of the Estrogen-related Receptor Gene (AccERR) from Apis cerana cerana
1.11 The Initial Analysis of a Serine Proteinase Gene (AccSp10) from Apis cerana cerana: Possible Involvement in Pupal Development, Innate Immunity and Abiotic Stress Responses
1.12 Cloning, Expression Patterns and Preliminary Characterization of AccCPR24,a Novel RR-1 Type Cuticle Protein Gene from Apis cerana cerana
1.13 Molecular Identification and Stress Response of the Apoptosis-inducing Factor Gene 3 (AccAIF3) from Apis cerana cerana
2 The Enzymatic Antiont Molecular Mechanisms of Apis cerana cerana .
2.1 Identification and Characterization of an Apis cerana cerana Delta Class Glutathione S-transferase Gene (AccGSTD) in Response to Teml tress
2.2 Characterization and Mutational Analysis of Omega-class GST (GSTO1) from Apis cerana cerana, a Gene Involved in Response to Otive Stress .
. A Nove Oea-class Glutathione S-transferase Gene in Apis cerana cerana:Molecular Characterisation of GSTO2 and Its Protective Effects in Otive Stress
2.4 Functional and Mutational Analyses of an Omega-class Glutathione S-transferase (GSTO2) That Is Required for Reducing Otive Damage in Apis cerana cerana .
2.5 Characterization of a Sigma Class Glutathione S-Transferase Gene in the Larvae of the Honeybee (Apis cerana cerana) on Exposure to Mercury
2.6 A Glutathione S-Transferase Gene Associated with Antiont Properties Isolate fo Apis cerana cerana
2.7 The Identification and Otive Stress Response of a Zeta Class Glutathione S-transferase (GSTZ1) Gene from Apis cerana cerana
2.8 Molecular Cloning, Expression and Otive Stress Response of a Mitochondrial Thioredoxin Perose Gene (AccTpx-3) from Apis cerana cerana
2.9 A Novel 1-Cys Thioredoxin Perose Gene in Apis cerana cerana: Characterization of AccTpx4 and Its Role in Otive Stresses
2.10 Identification and Characterisation of a Novel 1-Cys Thioredoxin Perose Gene (AccTpx5) from Apis cerana cerana
2.11 Glutaredoxin 1, Glutaredoxin 2, Thioredoxin 1, and Thioredoxin Perose 3 Play Important Roles in Antiont Defense in Apis cerana cerana
2.12 Molecular Cloning, Expression and Antiont Characterisation of a Typical Thioredoxin Gene (AccTrx2) in Apis cerana cerana
2.13 Characterization of a Mitochondrial Manganese Superoxide Dismutase Gene from Apis cerana cerana and Its Role in Otive Stress
2.14 Cloning and Molecular Identification of Triosephosphate Isomerase Gene from Apis cerana cerana and Its Role in Response to Various Stresses
自2008年蜂产业技术体系建立以来,山东农业大学蜜蜂研究团队对中华蜜蜂的抗逆分子机制进行了深入探索,发表了一系列重要。本书系统介绍了这些研究成果,全面展示了中华蜜蜂的抗逆分子机制,包括抗逆基因的结构分析、表达特分析、重组蛋白功能特分析等。
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