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Introduction: MYC transcription factors are the basic regulators of the jasmonic acid signaling pathway and play important roles in plant growth and development and the response to adverse stress. In recent years, severe winter freezing and late spring frost in the main planting area of walnut in Xinjiang have affected the growth and development of walnut, which has become a prominent problem restricting walnut production. Xinjiang wild walnut is the only remaining wild species of walnuts in China, which contains a lot of genes with excellent traits, and is important for the cultivation and breeding. Methods: In this paper, the physicochemical properties and bioinformatics of MYC transcription factor members in walnut were analyzed, and the nine MYC were screened from the transcriptome data under low temperature stress. At last, we study the subcellular localizations and the expression patterns of the nine MYC members in Xinjiang wild walnut. Results: The results revealed that 30 MYC members were identified from published walnut whole-genome data, and their evolutionary relationships with Arabidopsis and poplar were divided into six groups according to clustering analysis, among which JrMYC22 and JrMYC23 had high homology with PtrMYC2b, which is induced by jasmonic acid in response to low-temperature stress. Walnut MYC members are unevenly distributed on 12 chromosomes. The prediction of promoter cis-acting elements of walnut MYC transcription factor family members revealed that cis-acting elements related to jasmonic acid and lowtemperature stress were the ones with the greatest number of members, with 12. In addition, all nine MYC family members in Xinjiang wild walnut plants responding to low-temperature stress exhibited strong fluorescence responses in the nucleus. The expression levels of these members in response to low-temperature stress revealed that JrMYC28, JrMYC31, JrMYC33, JrMYC34, and JrMYC35 were highly expressed, and it was hypothesized that JrMYC28, JrMYC31, JrMYC33, JrMYC34, and JrMYC35 might play a key role in the response to lowtemperature stress. Discussion: The results of this study provide a theoretical basis for further research on the functional mechanisms of the MYC transcription factor family members in walnut.
RESUMEN
OBJECTIVE: To investigate the anti-tumor immunity of the non-replicating recombinant vaccinia virus expressing HPV16 E6 and E7 proteins. METHODS: C57BL/6 mice were immunized by non-replicating recombinant vaccinia virus (NTVJmE6E7), and then specific CTLs were determined. Immune protection effects were evaluated by challenges of different doses of TC-1 tumor cells. Immunotherapeutic effects in form of recurrence were evaluated on the tumor-removed mice. RESULTS: Mice immunized by NTVJmE6E7 could generate TC-1 cell specific cytotoxic T lymphocyte (CTL). Mice boosted with NTVJmE6E7 could tolerate the challenge of 1 x 10(4) TC-1 cells. NTVJmE6E7 could effectively prevent the tumor recurrence in the tumor-removed mice. CONCLUSION: NTVJmE6E7 can be taken as a candidate of therapeutic vaccine for HPV-associated tumors and their precursor lesions.
