Ythdf2-flox Mouse
Common Name
Ythdf2-flox
제품 ID
S-CKO-05737
Backgroud
C57BL/6JCya
품종 계통계통 ID
CKOCMP-213541-Ythdf2-B6J-VA
상태
이 마우스 계통을 논문에서 사용할 경우, “Ythdf2-flox Mouse (카탈로그 번호 S-CKO-05737)은 Cyagen에서 구입하였습니다.”라고 명시해 주시기 바랍니다.
구매 가능한 제품 종류
연령
Genotype
성별
수량
표준 제공 조건은 최소 3마리의 이형접합(heterozygous) 보균자를 보장합니다. 동형접합(homozygous) 보균자 및/또는 특정 성별에 대한 브리딩 서비스도 제공됩니다.
기본 정보
품종 계통
Ythdf2-flox
품종 계통계통 ID
CKOCMP-213541-Ythdf2-B6J-VA
유전자명
제품 ID
S-CKO-05737
유전자 별칭
HGRG8, NY-REN-2, 9430020E02Rik
배경
C57BL/6JCya
NCBI ID
변형 내용
Conditional knockout
염색체
Chr 4
Phenotype
Datasheet
적용 분야
--
품종 계통 설명
Ensembl 전사체 ID
ENSMUST00000152796
NCBI 전사체 ID
NM_145393
타겟 영역
Exon 3
유효 영역 크기
~0.6 kb
유전자 연구 개요
Ythdf2, an N6-methyladenosine (m6A) reader, plays a crucial role in regulating mRNA degradation. It binds to m6A-modified mRNAs, leading to their decay, thus influencing gene expression and various biological processes. It is involved in pathways like NF-κB signaling and has significance in tumor-related immunology and cancer progression [1,2,3,4,5,6,7,8,10]. Genetic models, such as KO/CKO mouse models, are valuable for studying its functions.
In myeloid cells, loss of Ythdf2 after ionizing radiation (IR) enhances antitumor immunity and overcomes tumor radioresistance by modulating myeloid-derived suppressor cell (MDSC) differentiation, infiltration, and suppressive function. The IR-induced YTHDF2 expression depends on NF-κB signaling, forming an IR-YTHDF2-NF-κB circuit [1]. In tumor-associated macrophages (TAMs), Ythdf2 deficiency reprograms TAMs towards an antitumoral phenotype, enhancing CD8+ T cell-mediated antitumor immunity [2]. In MYC-driven breast cancer, disrupting YTHDF2-dependent mRNA degradation triggers apoptosis [5]. In glioblastoma, YTHDF2 promotes cholesterol dysregulation and invasive growth [6]. In hepatocellular carcinoma, YTHDF2 upregulation is related to sorafenib resistance [7]. In bladder cancer, YTHDF2 promotes cancer progression by suppressing the RIG-I-mediated immune response [8]. In NK cells, Ythdf2 deficiency impairs antitumor and antiviral activity [9]. In prostate cancer, YTHDF2 mediates the mRNA degradation of tumor suppressors LHPP and NKX3-1, regulating AKT phosphorylation-induced tumor progression [10].
In conclusion, Ythdf2 is a key regulator in multiple biological processes, especially in tumor-related immunology and cancer progression. Studies using KO/CKO mouse models have revealed its role in various disease conditions, providing potential therapeutic targets for cancers, such as improving radiotherapy and immunotherapy combinations, and enhancing the efficacy of cancer treatments.
References:
1. Wang, Liangliang, Dou, Xiaoyang, Chen, Shijie, He, Chuan, Weichselbaum, Ralph R. 2023. YTHDF2 inhibition potentiates radiotherapy antitumor efficacy. In Cancer cell, 41, 1294-1308.e8. doi:10.1016/j.ccell.2023.04.019. https://pubmed.ncbi.nlm.nih.gov/37236197/
2. Ma, Shoubao, Sun, Baofa, Duan, Songqi, Caligiuri, Michael A, Yu, Jianhua. 2023. YTHDF2 orchestrates tumor-associated macrophage reprogramming and controls antitumor immunity through CD8+ T cells. In Nature immunology, 24, 255-266. doi:10.1038/s41590-022-01398-6. https://pubmed.ncbi.nlm.nih.gov/36658237/
3. Yu, Jie, Chai, Peiwei, Xie, Minyue, Fan, Xianqun, Jia, Renbing. 2021. Histone lactylation drives oncogenesis by facilitating m6A reader protein YTHDF2 expression in ocular melanoma. In Genome biology, 22, 85. doi:10.1186/s13059-021-02308-z. https://pubmed.ncbi.nlm.nih.gov/33726814/
4. Yang, Yang, Yan, Yu, Yin, Jiaxin, Gao, Qingzhu, Huang, Ailong. 2023. O-GlcNAcylation of YTHDF2 promotes HBV-related hepatocellular carcinoma progression in an N6-methyladenosine-dependent manner. In Signal transduction and targeted therapy, 8, 63. doi:10.1038/s41392-023-01316-8. https://pubmed.ncbi.nlm.nih.gov/36765030/
5. Einstein, Jaclyn M, Perelis, Mark, Chaim, Isaac A, Westbrook, Thomas F, Yeo, Gene W. 2021. Inhibition of YTHDF2 triggers proteotoxic cell death in MYC-driven breast cancer. In Molecular cell, 81, 3048-3064.e9. doi:10.1016/j.molcel.2021.06.014. https://pubmed.ncbi.nlm.nih.gov/34216543/
6. Fang, Runping, Chen, Xin, Zhang, Sicong, He, Chuan, Huang, Suyun. 2021. EGFR/SRC/ERK-stabilized YTHDF2 promotes cholesterol dysregulation and invasive growth of glioblastoma. In Nature communications, 12, 177. doi:10.1038/s41467-020-20379-7. https://pubmed.ncbi.nlm.nih.gov/33420027/
7. Liao, Yuning, Liu, Yuan, Yu, Cuifu, Cai, Gengxi, Huang, Hongbiao. 2023. HSP90β Impedes STUB1-Induced Ubiquitination of YTHDF2 to Drive Sorafenib Resistance in Hepatocellular Carcinoma. In Advanced science (Weinheim, Baden-Wurttemberg, Germany), 10, e2302025. doi:10.1002/advs.202302025. https://pubmed.ncbi.nlm.nih.gov/37515378/
8. Zhang, Lei, Li, Yuqing, Zhou, Lingli, Cui, Jun, Wu, Song. . The m6A Reader YTHDF2 Promotes Bladder Cancer Progression by Suppressing RIG-I-Mediated Immune Response. In Cancer research, 83, 1834-1850. doi:10.1158/0008-5472.CAN-22-2485. https://pubmed.ncbi.nlm.nih.gov/36939388/
9. Ma, Shoubao, Yan, Jiazhuo, Barr, Tasha, Caligiuri, Michael A, Yu, Jianhua. 2021. The RNA m6A reader YTHDF2 controls NK cell antitumor and antiviral immunity. In The Journal of experimental medicine, 218, . doi:10.1084/jem.20210279. https://pubmed.ncbi.nlm.nih.gov/34160549/
10. Li, Jiangfeng, Xie, Haiyun, Ying, Yufan, Zheng, Xiangyi, Xie, Liping. 2020. YTHDF2 mediates the mRNA degradation of the tumor suppressors to induce AKT phosphorylation in N6-methyladenosine-dependent way in prostate cancer. In Molecular cancer, 19, 152. doi:10.1186/s12943-020-01267-6. https://pubmed.ncbi.nlm.nih.gov/33121495/
품질 관리 기준
정자 검사
동결 보존 전: 정자 농도 측정 및 정자 생존율 평가.
동결 보존 후: 각 배치에서 동결 보존된 정자 바이알 1개를 선택하여 체외수정(in vitro fertilization)에 사용합니다.
Environmental Standards:
SPFAvailable Region:
GlobalSource:
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