|
41
|
2022 |
Novel acetylation-related gene signatures for predicting the prognosis of patients with colorectal cancer |
新的乙酰化相关基因签名预测结直肠癌患者的预后 |
Human Cell |
4.37 |
|
42
|
2022 |
Biological roles of toll-like receptors and gut microbiota in colorectal cancer |
Toll样受体和肠道菌群在结直肠癌中的生物学作用 |
Future microbiology |
3.55 |
|
43
|
2022 |
Intestinal phages interact with bacteria and are involved in human diseases |
肠道噬菌体与细菌相互作用,并参与人类疾病 |
Gut Microbes |
12.20 |
|
44
|
2022 |
Bacterial DNA involvement in carcinogenesis |
细菌DNA参与癌变 |
Frontiers in Cellular and Infection Microbiology |
6.07 |
|
45
|
2022 |
Different Characteristics in Gut Microbiome between Advanced Adenoma Patients and Colorectal Cancer Patients by Metagenomic Analysis |
宏基因组分析揭示进展期腺瘤患者与结直肠癌患者肠道微生物组的不同特征 |
Microbiology Spectrum |
9.04 |
|
46
|
2022 |
Synergistic effect of sodium butyrate and oxaliplatin on colorectal cancer |
丁酸钠与奥沙利铂对结直肠癌的协同作用 |
Translational Oncology |
4.80 |
|
47
|
2022 |
Prediction model of poorly differentiated colorectal cancer (CRC) based on gut bacteria |
基于肠道细菌的低分化性结直肠癌预测模型 |
BMC Microbiology |
4.46 |
|
48
|
2022 |
Using whole-genome sequencing (WGS) to plot colorectal cancer-related gut microbiota in a population with varied geography |
使用全基因组测序绘制不同地理位置的结直肠癌相关肠道微生物谱 |
Gut Pathogens |
5.32 |
|
49
|
2022 |
Prediction model of colorectal cancer (CRC) lymph node metastasis based on intestinal bacteria |
基于肠道细菌的结直肠癌淋巴结转移预测模型 |
Clinical and Translational Oncology |
3.34 |
|
50
|
2023 |
Mitochondria-associated endoplasmic reticulum membrane: Overview and inextricable link with cancer |
线粒体内质网膜:综述及其与癌症的密不可分的联系 |
Journal of Cellular and Molecular Medicine |
5.30 |
|
51
|
2023 |
Gut microbes involvement in gastrointestinal cancers through redox regulation |
肠道微生物通过氧化还原调节参与胃肠道癌症 |
Gut Pathogens |
5.32 |
|
52
|
2023 |
Aging characteristics of colorectal cancer based on gut microbiota |
基于肠道菌群的结直肠癌衰老特征 |
Cancer medicine |
4.00 |
|
53
|
2023 |
Application and progress of high content imaging in molecular biology. |
高通量成像技术在分子生物学中的应用与进展 |
Biotechnology journal |
4.70 |
|
54
|
2023 |
Advances in immunotyping of colorectal cancer |
结直肠癌免疫分型研究进展 |
Frontiers in Immunolology |
7.30 |
|
55
|
2023 |
Colorectal Cancer and Gut Viruses A Visualized Analysis Based on Citespace Knowledge Graph |
结直肠癌与肠道病毒:基于CiteSpace知识图谱的可视化分析 |
Frontiers in Microbiology |
5.20 |
|
56
|
2023 |
Cholesterol induction in CD8+ T cell exhaustion in colorectal cancer via the regulation of endoplasmic reticulum-mitochondria contact sites |
胆固醇通过调节内质网线粒体接触位点诱导结直肠癌CD8+ T细胞耗竭 |
Cancer Immunology Immunotherapy |
5.80 |
|
57
|
2023 |
Correlation of gut microbiota with leukopenia after chemotherapy in patients with colorectal cancer |
结直肠癌患者化疗后肠道菌群与白细胞减少的相关性 |
BMC Microbiology |
4.20 |
|
58
|
2023 |
Classification of colorectal cancer subtypes based on endoplasmic reticulum stress |
基于内质网应激的结直肠癌亚型分类 |
Digestion |
3.20 |
|
59
|
2024 |
Advances in reprogramming of energy metabolism in tumor T cells |
肿瘤T细胞能量代谢重编程的研究进展 |
Frontiers in Immunology |
7.30 |
|
60
|
2024 |
Identification of enterotype and its predictive value for patients with colorectal cancer |
结肠直肠癌患者肠型的鉴别及其预测价值 |
Gut Pathogens |
4.20 |
