314 results on '"Zhou, Quanbo"'
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2. Advances in targeting cancer-associated fibroblasts through single-cell spatial transcriptomic sequencing
3. Tumour-associated macrophages and Schwann cells promote perineural invasion via paracrine loop in pancreatic ductal adenocarcinoma
4. Super-enhancer RNA m6A promotes local chromatin accessibility and oncogene transcription in pancreatic ductal adenocarcinoma
5. LncRNA BCAN-AS1 stabilizes c-Myc via N6-methyladenosine-mediated binding with SNIP1 to promote pancreatic cancer
6. QDPR deficiency drives immune suppression in pancreatic cancer
7. Effects of RNA methylation on Tumor angiogenesis and cancer progression
8. CSTF2 mediated mRNA N6-methyladenosine modification drives pancreatic ductal adenocarcinoma m6A subtypes
9. Nudt21-mediated alternative polyadenylation of MZT1 3′UTR contributes to pancreatic cancer progression
10. Retraction Note: YAP1-induced MALAT1 promotes epithelial–mesenchymal transition and angiogenesis by sponging miR-126-5p in colorectal cancer
11. Cancer-associated fibroblast-induced lncRNA UPK1A-AS1 confers platinum resistance in pancreatic cancer via efficient double-strand break repair
12. circCUL2 induces an inflammatory CAF phenotype in pancreatic ductal adenocarcinoma via the activation of the MyD88-dependent NF-κB signaling pathway
13. Exosome-derived noncoding RNAs: Function, mechanism, and application in tumor angiogenesis
14. A novel anastomosis technique facilitates pancreaticojejunostomy in total laparoscopic pancreaticoduodenectomy (with video)
15. An assessment system for clinical and biological interpretability in ulcerative colitis
16. Fruquintinib with PD-1 inhibitors versus fruquintinib monotherapy in late-line mCRC: A retrospective cohort study based on propensity score matching.
17. Tumour-associated macrophages and Schwann cells promote perineural invasion via paracrine loop in pancreatic ductal adenocarcinoma
18. Targeting neutrophils: Mechanism and advances in cancer therapy.
19. Data from N6-methyladenosine Modification of FZR1 mRNA Promotes Gemcitabine Resistance in Pancreatic Cancer
20. Supplementary Data from N6-methyladenosine Modification of FZR1 mRNA Promotes Gemcitabine Resistance in Pancreatic Cancer
21. Cancer-associated fibroblasts-mediated ATF4 expression promotes malignancy and gemcitabine resistance in pancreatic cancer via the TGF-β1/SMAD2/3 pathway and ABCC1 transactivation
22. Correction: Cancer-associated fibroblasts promote progression and gemcitabine resistance via the SDF-1/SATB-1 pathway in pancreatic cancer
23. RETRACTED ARTICLE: YAP1-induced MALAT1 promotes epithelial–mesenchymal transition and angiogenesis by sponging miR-126-5p in colorectal cancer
24. MiR-103a-3p promotes tumour glycolysis in colorectal cancer via hippo/YAP1/HIF1A axis
25. LncRNA HOTTIP modulates cancer stem cell properties in human pancreatic cancer by regulating HOXA9
26. N 6-methyladenosine Modification of FZR1 mRNA Promotes Gemcitabine Resistance in Pancreatic Cancer
27. Circular RNA circBFAR promotes the progression of pancreatic ductal adenocarcinoma via the miR-34b-5p/MET/Akt axis
28. Roles of circRNAs in the tumour microenvironment
29. LncRNA LINC00662 promotes colon cancer tumor growth and metastasis by competitively binding with miR-340-5p to regulate CLDN8/IL22 co-expression and activating ERK signaling pathway
30. The interplay between m6A RNA methylation and noncoding RNA in cancer
31. Figure S1 from Exosomal Noncoding RNAs and Tumor Drug Resistance
32. Long non-coding RNA LOC389641 promotes progression of pancreatic ductal adenocarcinoma and increases cell invasion by regulating E-cadherin in a TNFRSF10A-related manner
33. Exosomal circRNAs: biogenesis, effect and application in human diseases
34. Effects of exosomes on pre-metastatic niche formation in tumors
35. CSTF2 mediated mRNA N6-methyladenosine modification drives pancreatic ductal adenocarcinoma m6A subtypes.
36. Cancer-associated fibroblasts promote progression and gemcitabine resistance via the SDF-1/SATB-1 pathway in pancreatic cancer
37. Standard pancreatoduodenectomy versus extended pancreatoduodenectomy with modified retroperitoneal nerve resection in patients with pancreatic head cancer: a multicenter randomized controlled trial
38. Corrigendum to “Macrophage-expressed CD51 promotes cancer stem cell properties via the TGF-β1/smad2/3 axis in pancreatic cancer” [Canc. Lett. 459(2019)204–215]
39. Corrigendum to “LncRNA HOTTIP modulates cancer stem cell properties in human pancreatic cancer by regulating HOXA9” [Canc. Lett. 410 (2017) 68–81]
40. Corrigendum to “Long non-coding RNA LOC389641 promotes progression of pancreatic ductal adenocarcinoma and increases cell invasion by regulating E-cadherin in a TNFRSF10A-related manner” [Canc. Lett. 371 (2016) 354–365]
41. Tumor-associated macrophages and Schwann cells promote perineural invasion via paracrine loop in pancreatic ductal adenocarcinoma
42. Effect of exosomal miRNA on cancer biology and clinical applications
43. Emerging role of exosome-derived long non-coding RNAs in tumor microenvironment
44. Tumor-associated macrophages promote progression and the Warburg effect via CCL18/NF-kB/VCAM-1 pathway in pancreatic ductal adenocarcinoma
45. FEZF1-AS1/miR-107/ZNF312B axis facilitates progression and Warburg effect in pancreatic ductal adenocarcinoma
46. Standard pancreatoduodenectomy versus extended pancreatoduodenectomy with modified retroperitoneal nerve resection in patients with pancreatic head cancer: a multicenter randomized controlled trial.
47. Analysis of global gene expression profiles suggests a role of acute inflammation in type 3C diabetes mellitus caused by pancreatic ductal adenocarcinoma
48. Gastrectomy and risk of pancreatic cancer: systematic review and meta-analysis of observational studies
49. Pancreatic stellate cells promotes the perineural invasion in pancreatic cancer
50. Additional file 2 of circCUL2 induces an inflammatory CAF phenotype in pancreatic ductal adenocarcinoma via the activation of the MyD88-dependent NF-��B signaling pathway
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