Glul-KO Mouse
Common Name
Glul-KO
제품 ID
S-KO-02256
Backgroud
C57BL/6JCya
품종 계통계통 ID
KOCMP-14645-Glul-B6J-VB
상태
이 마우스 계통을 논문에서 사용할 경우, “Glul-KO Mouse (카탈로그 번호 S-KO-02256)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
Glul-KO
품종 계통계통 ID
KOCMP-14645-Glul-B6J-VB
유전자명
제품 ID
S-KO-02256
유전자 별칭
GS, Glns
배경
C57BL/6JCya
NCBI ID
변형 내용
Conventional knockout
염색체
Chr 1
Phenotype
Datasheet
적용 분야
--
품종 계통 설명
Ensembl 전사체 ID
ENSMUST00000086199
NCBI 전사체 ID
NM_008131.4
타겟 영역
Exon 4~6
유효 영역 크기
~1.6 kb
유전자 연구 개요
Glul, also known as glutamate-ammonia ligase or glutamine synthetase, is an enzyme that catalyzes the ATP-dependent condensation of ammonium and glutamate into glutamine. This reaction is crucial for ammonia detoxification, acid-base homeostasis, cell signaling, and proliferation. Glul is involved in multiple metabolic pathways, such as the tricarboxylic acid (TCA) cycle via reversed glutaminolysis [1,7].
In clear cell renal cell carcinoma (ccRCC), the epigenetic regulator PHF8 transcriptionally up-regulates Glul, which promotes lipid deposition and ccRCC progression [1]. In thermogenic adipocyte differentiation, Glul-produced glutamine promotes the process through Prdm9-mediated H3K4me3 and transcriptional reprogramming [2]. In gastric cancer, Glul stabilizes N-Cadherin by antagonizing β-Catenin, thus inhibiting cancer progression [3]. In hepatocellular carcinoma, targeting Glul impedes cancer progression promoted by high dietary fructose [4]. In breast cancer, Glul promotes cell proliferation and may be a novel target for inhibiting certain signaling pathways [5]. In erythropoiesis, Glul activation during erythroid maturation detoxifies ammonium from heme biosynthesis, and its loss impairs erythroid maturation [6]. In non-small-cell lung carcinoma, GLUL ablation can confer drug resistance via a malate-aspartate shuttle-mediated mechanism [7]. In luminal subtype breast cancer, GLUL knockdown and restricted glucose level show a synergistic inhibitory effect on cell proliferation and metastasis [8]. In endothelial cells, genetic deletion of Glul impairs vessel sprouting during vascular development [9].
In conclusion, Glul plays essential roles in various biological processes and diseases. Studies using gene knockout (KO) or conditional knockout (CKO) mouse models and other loss-of-function experiments on Glul have revealed its significance in cancer development, adipocyte differentiation, erythropoiesis, angiogenesis, and drug resistance, providing insights into potential therapeutic targets for related diseases.
References:
1. Peng, Song, Wang, Ze, Tang, Peng, Jiang, Jun, Liu, Qiuli. 2023. PHF8-GLUL axis in lipid deposition and tumor growth of clear cell renal cell carcinoma. In Science advances, 9, eadf3566. doi:10.1126/sciadv.adf3566. https://pubmed.ncbi.nlm.nih.gov/37531433/
2. Pan, Xiaowen, Ye, Lingxia, Guo, Xiaozhen, Shan, Pengfei, Meng, Zhuo-Xian. . Glutamine Production by Glul Promotes Thermogenic Adipocyte Differentiation Through Prdm9-Mediated H3K4me3 and Transcriptional Reprogramming. In Diabetes, 72, 1574-1596. doi:10.2337/db23-0162. https://pubmed.ncbi.nlm.nih.gov/37579296/
3. Jiang, Qiwei, Li, Yong, Cai, Songwang, Chen, Zhesheng, Shi, Zhi. 2023. GLUL stabilizes N-Cadherin by antagonizing β-Catenin to inhibit the progresses of gastric cancer. In Acta pharmaceutica Sinica. B, 14, 698-711. doi:10.1016/j.apsb.2023.11.008. https://pubmed.ncbi.nlm.nih.gov/38322340/
4. Zhou, Peng, Chang, Wen-Yi, Gong, De-Ao, Tang, Ni, Huang, Ai-Long. 2023. High dietary fructose promotes hepatocellular carcinoma progression by enhancing O-GlcNAcylation via microbiota-derived acetate. In Cell metabolism, 35, 1961-1975.e6. doi:10.1016/j.cmet.2023.09.009. https://pubmed.ncbi.nlm.nih.gov/37797623/
5. Wang, Yanyan, Fan, Shaohua, Lu, Jun, Wu, Zhiyong, Zheng, Yuanlin. 2017. GLUL Promotes Cell Proliferation in Breast Cancer. In Journal of cellular biochemistry, 118, 2018-2025. doi:10.1002/jcb.25775. https://pubmed.ncbi.nlm.nih.gov/27791265/
6. Lyu, Junhua, Gu, Zhimin, Zhang, Yuannyu, Ni, Min, Xu, Jian. 2024. A glutamine metabolic switch supports erythropoiesis. In Science (New York, N.Y.), 386, eadh9215. doi:10.1126/science.adh9215. https://pubmed.ncbi.nlm.nih.gov/39541460/
7. Muthu, Magesh, Kumar, Ranjeet, Syed Khaja, Azharuddin Sajid, Persson, Jenny L, Nordström, Anders. 2019. GLUL Ablation Can Confer Drug Resistance to Cancer Cells via a Malate-Aspartate Shuttle-Mediated Mechanism. In Cancers, 11, . doi:10.3390/cancers11121945. https://pubmed.ncbi.nlm.nih.gov/31817360/
8. Karimpur Zahmatkesh, Arezu, Khalaj-Kondori, Mohammad, Hosseinpour Feizi, Mohammad Ali, Baradaran, Behzad. 2023. GLUL gene knockdown and restricted glucose level show synergistic inhibitory effect on the luminal subtype breast cancer MCF7 cells' proliferation and metastasis. In EXCLI journal, 22, 847-861. doi:10.17179/excli2023-6287. https://pubmed.ncbi.nlm.nih.gov/37780942/
9. Eelen, Guy, Dubois, Charlotte, Cantelmo, Anna Rita, Wu, Xu, Carmeliet, Peter. 2018. Role of glutamine synthetase in angiogenesis beyond glutamine synthesis. In Nature, 561, 63-69. doi:10.1038/s41586-018-0466-7. https://pubmed.ncbi.nlm.nih.gov/30158707/
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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