34 results on '"JANG, Ho Am"'
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2. Expression pattern analysis of transmembrane receptor TmToll‐8, −9, and −10 in the coleopteran insect Tenebrio molitor following systemic infection
3. In silico identification and expression analyses of catalases in Tenebrio molitor
4. Effects of TmTak1 silencing on AMP production as an Imd pathway component in Tenebrio molitor
5. IKKβ regulates antimicrobial innate immune responses in the yellow mealworm, Tenebrio molitor
6. Effects of TmTak1 silencing on AMP production as an Imd pathway component in Tenebrio molitor
7. Trehalose Biosynthesis Gene otsA Protects against Stress in the Initial Infection Stage of Burkholderia -Bean Bug Symbiosis
8. Innate Immune Response of TmToll-3 Following Systemic Microbial Infection in Tenebrio molitor
9. Proteolytic Activity of DegP Is Required for the Burkholderia Symbiont To Persist in Its Host Bean Bug
10. Molecular Characterization of FADD Gene in T. Molitor and its Requirement for Survivability Against E. Coli Infection
11. Molecular Characterization of Fadd Gene in T. Molitor and its Requirement for Survivability Against E. Coli Infection
12. Immunological Roles of TmToll-2 in Response to Escherichia coli Systemic Infection in Tenebrio molitor
13. Current Status of Immune Deficiency Pathway in Tenebrio molitor Innate Immunity
14. Current knowledge of immune priming in invertebrates, emphasizing studies on Tenebrio molitor
15. TmIKKε Is Required to Confer Protection Against Gram-Negative Bacteria, E. coli by the Regulation of Antimicrobial Peptide Production in the Tenebrio molitor Fat Body
16. Critical Roles of Spätzle5 in Antimicrobial Peptide Production Against Escherichia coli in Tenebrio molitor Malpighian Tubules
17. Identification, in silico characterization, and expression analysis ofTenebrio molitorCecropin‐2
18. IKKγ/NEMO Is Required to Confer Antimicrobial Innate Immune Responses in the Yellow Mealworm, Tenebrio Molitor
19. In silicoidentification and expression analyses ofDefensingenes in the mealworm beetleTenebrio molitor
20. Bacterial but not fungal challenge up‐regulates the transcription of Coleoptericin genes inTenebrio molitor
21. Aedes albopictus Autophagy-Related Gene 8 (AaAtg8) Is Required to Confer Anti-Bacterial Gut Immunity
22. Burkholderia gut symbiont modulates titer of specific juvenile hormone in the bean bug Riptortus pedestris
23. The lipopolysaccharide core oligosaccharide of Burkholderia plays a critical role in maintaining a proper gut symbiosis with the bean bug Riptortus pedestris
24. PhaR, a Negative Regulator of PhaP, Modulates the Colonization of a Burkholderia Gut Symbiont in the Midgut of the Host Insect, Riptortus pedestris
25. Gut symbiotic bacteria stimulate insect growth and egg production by modulating hexamerin and vitellogenin gene expression
26. A midgut lysate of the Riptortus pedestris has antibacterial activity against LPS O-antigen-deficient Burkholderia mutants
27. An antimicrobial protein of the Riptortus pedestris salivary gland was cleaved by a virulence factor of Serratia marcescens
28. Understanding regulation of the host-mediated gut symbiont population and the symbiont-mediated host immunity in the Riptortus-Burkholderia symbiosis system
29. Transposon mutagenesis of gut symbiontBurkholderiaidentified lipoprotein mutant resistant to host salivary gland of bean bug,Riptortus pedestris
30. Burkholderia gut symbionts enhance the innate immunity of host Riptortus pedestris
31. Bacterial cell motility of Burkholderia gut symbiont is required to colonize the insect gut
32. Specific Midgut Region Controlling the Symbiont Population in an Insect-Microbe Gut Symbiotic Association
33. Purine biosynthesis-deficient Burkholderia mutants are incapable of symbiotic accommodation in the stinkbug
34. Mutagenicity and anti-mutagenicity of Acanthopanax divaricatus var. albeofructus
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