about
Warburg effect revisited: an epigenetic link between glycolysis and gastric carcinogenesisA new paradigm of genetic testing for hereditary breast/ovarian cancersMiRNA as potential biomarkers and therapeutic targets for gastric cancer.Elevation of methylated DNA in KILLIN/PTEN in the plasma of patients with thyroid and/or breast cancerCirculating microRNAs as specific biomarkers for breast cancer detection.A microRNA contribution to aberrant Ras activation in gastric cancermiR-199a-5p confers tumor-suppressive role in triple-negative breast cancer.Circulating cell-free miRNAs as biomarker for triple-negative breast cancerA three-miRNA signature as promising non-invasive diagnostic marker for gastric cancer.Association of EP2 receptor and SLC19A3 in regulating breast cancer metastasis.Detection of Methylated Circulating DNA as Noninvasive Biomarkers for Breast Cancer DiagnosisAnimal models of gastrointestinal inflammation and cancer.MicroRNA-143 is downregulated in breast cancer and regulates DNA methyltransferases 3A in breast cancer cells.4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanone promoted gastric cancer growth through prostaglandin E receptor (EP2 and EP4) in vivo and in vitro.NF-κB targets miR-16 and miR-21 in gastric cancer: involvement of prostaglandin E receptors.Activation of 5-lipoxygenase is required for nicotine mediated epithelial-mesenchymal transition and tumor cell growth.Detection of Germline Mutation in Hereditary Breast and/or Ovarian Cancers by Next-Generation Sequencing on a Four-Gene Panel.Heparin increases human gastric carcinoma cell growth.The modulating role of nuclear factor-kappaB in the action of alpha7-nicotinic acetylcholine receptor and cross-talk between 5-lipoxygenase and cyclooxygenase-2 in colon cancer growth induced by 4-(N-methyl-N-nitrosamino)-1-(3-pyridyl)-1-butanone.Differential effects of cigarette smoke extracts on cell proliferation in gastric and colon cells.Response to: Comment on 'Circulating cell-free miRNAs as biomarker for triple-negative breast cancer'Effects of cigarette smoking and restraint stress on human colon tumor growth in mice.Cigarette smoke extracts delay wound healing in the stomach: involvement of polyamine synthesis.Morphine as a drug for stress ulcer prevention and healing in the stomach.Nicotine promotes gastric tumor growth and neovascularization by activating extracellular signal-regulated kinase and cyclooxygenase-2.Contributory role of 5-lipoxygenase and its association with angiogenesis in the promotion of inflammation-associated colonic tumorigenesis by cigarette smoking.Dual inhibition of 5-LOX and COX-2 suppresses colon cancer formation promoted by cigarette smoke.The importance of analysis of long-range rearrangement of BRCA1 and BRCA2 in genetic diagnosis of familial breast cancer.Interaction of cigarette smoking with cyclooxygenase-2 on ulcerative colitis-associated neoplasia in mice.Rapid detection of BRCA1/2 recurrent mutations in Chinese breast and ovarian cancer patients with multiplex SNaPshot genotyping panels.Germline RECQL mutations in high risk Chinese breast cancer patients.MicroRNAs are differentially deregulated in mammary malignant phyllodes tumour.Cigarette smoke exposure increases ulcerative colitis-associated colonic adenoma formation in mice.MiR-92 suppresses proliferation and induces apoptosis by targeting EP4/Notch1 axis in gastric cancer.Breast and ovarian cancer penetrance of BRCA1/2 mutations among Hong Kong women.Long non-coding RNA NEAT1 confers oncogenic role in triple-negative breast cancer through modulating chemoresistance and cancer stemnessDexamethasone delays ulcer healing by inhibition of angiogenesis in rat stomachsEffect of polysaccharides from Angelica sinensis on gastric ulcer healingProbiotic Lactobacillus rhamnosus GG enhances gastric ulcer healing in ratsEffects of adrenaline in human colon adenocarcinoma HT-29 cells
P50
Q24313608-D7B41209-8832-42E1-A699-660A51A9335CQ26765368-8774EDA0-8846-4DD4-A9B0-6CDE1CE5F22FQ34036679-9697C4E0-3750-474D-A7D3-8C81DB7E7D52Q34523189-12A6FAF1-F5AD-4D09-A397-8D7A86C42D1FQ34542335-D4B9D71B-98E2-461F-996C-F80630E3F1D9Q34667453-1726F727-AA1B-44D3-9003-1A5111C21961Q36191985-2CE9B42F-7C7A-47B2-81EF-8E29C4F3B1DBQ36285931-5B58082D-2736-49BC-B8F4-69E4709D7157Q36318344-CF6A3695-AA20-4653-83E8-93980C4ADAECQ36420170-5F58654D-EC5A-4FA7-848A-ADF0683BA056Q37735951-AB1A9914-60CC-4D60-AB39-50F6D4E64FBDQ38211612-42F9D948-DCF4-40E1-B6A2-3E30BD3FA9C1Q39064248-01569FF3-4750-48C2-9C5A-0405D182B08FQ39603837-E489FAA0-982A-443C-BB2F-19115AB75F31Q39631146-9A02AC2F-C179-4BA9-932F-EB8D7B9D1CF0Q39754023-4EC46B1E-49C2-4292-B8C1-F9D10AD317B1Q39784995-6DCE1C81-4B42-48B1-A706-58B642C7E2C6Q40316932-57FC4202-D582-42F1-924B-8D1C2B2C66FBQ40552015-205D2E5A-9D58-4A3D-B1CD-9ADBE31EF087Q40648239-251BB950-05BF-4312-B525-53EEFFA43941Q41512993-E1D8FDEB-F89E-4D6A-B811-C1E0D3AA1886Q43272283-9C6054C4-9038-4047-82E0-AB6E070A66F0Q43869596-EF999A81-C404-4EDA-9B51-DDB9F1326388Q44297483-35FC725C-16B7-4252-96D0-E69875422CDAQ45023464-02C56AFE-7757-45CA-916A-51860CA71ED1Q45055873-189DFF44-4D1F-4738-86FF-0F6E93550D89Q45214752-71347394-FA86-4546-AAC4-C4F735FDD5DBQ46087532-4E91845E-783E-4855-BDC0-91C0EC9A2C18Q46866914-D1D0D6CB-C806-4C9E-A7F9-0C6F2DE88D64Q50300704-E0C11D53-611F-4A4E-97A4-F0A21E205E22Q52872559-E07B7D71-D6CE-4488-AE02-51AF5D99C516Q52975936-28BB47A0-F5C3-4DAA-9A59-776C1870D0DAQ53378695-5E81F886-D909-4F36-9E57-E7A3AB78858EQ55082057-A2E64E36-D9EE-4EFB-8168-E2F58AE060DEQ55420639-70E163F8-BF61-417F-B102-5023AB8D4C1CQ64069407-6D12FA95-DDE4-4FA7-857A-3DC604825173Q75390225-51D3DD8A-1063-46C4-AFBB-13F6F0EC4B43Q78693879-F297F1C3-C3B3-4C50-95AE-AB9629AED2DDQ80064097-37519784-E3A6-4B77-BBA7-9B2B89DC115EQ84084243-3D7F35A3-1158-48BA-80E6-6F7444350A4E
P50
description
Forscher
@de
investigador
@es
researcher
@en
ricercatore
@it
wetenschapper
@nl
研究員
@ja
研究者
@zh
name
Vivian Y Shin
@en
Vivian Y Shin
@nl
type
label
Vivian Y Shin
@en
Vivian Y Shin
@nl
prefLabel
Vivian Y Shin
@en
Vivian Y Shin
@nl
P106
P31
P496
0000-0003-1282-7593