about
Heterogeneity in genetic admixture across different regions of ArgentinaHistory shaped the geographic distribution of genomic admixture on the island of Puerto RicoVariability in Cancer Risk and Outcomes Within US Latinos by National Origin and Genetic AncestryAssociation of lifestyle and demographic factors with estrogenic and glucocorticogenic activity in Mexican American womenAdmixture mapping of 15,280 African Americans identifies obesity susceptibility loci on chromosomes 5 and X.Association between rs2981582 polymorphism in the FGFR2 gene and the risk of breast cancer in Mexican womenEuropean ancestry is positively associated with breast cancer risk in Mexican womenGenome-wide association study of breast cancer in Latinas identifies novel protective variants on 6q25.African ancestry of the population of Buenos Aires.Genome-wide association study identifies variants at 16p13 associated with survival in multiple myeloma patients.Admixture mapping identifies a locus on 6q25 associated with breast cancer risk in US LatinasInteraction between common breast cancer susceptibility variants, genetic ancestry, and nongenetic risk factors in Hispanic women.A meta-analysis of genome-wide association studies of breast cancer identifies two novel susceptibility loci at 6q14 and 20q11.Red meat, poultry, and fish intake and breast cancer risk among Hispanic and Non-Hispanic white women: The Breast Cancer Health Disparities Study.Genetic ancestry modifies the association between genetic risk variants and breast cancer risk among Hispanic and non-Hispanic white women.High prevalence of luminal B breast cancer intrinsic subtype in Colombian women.Population differences in breast cancer severity.Genetic ancestry and risk of breast cancer among U.S. LatinasTelomere length, telomere-related genes, and breast cancer risk: the breast cancer health disparities study.Genetic ancestry and risk of mortality among U.S. Latinas with breast cancer.An admixture scan in 1,484 African American women with breast cancer.Genomic Disparities in Breast Cancer Among Latinas.Genetic variants and non-genetic factors predict circulating vitamin D levels in Hispanic and non-Hispanic White women: the Breast Cancer Health Disparities Study.IL1B-CGTC haplotype is associated with colorectal cancer in admixed individuals with increased African ancestry.Genetic ancestry in relation to the metabolic response to a US versus traditional Mexican diet: a randomized crossover feeding trial among women of Mexican descent.Genetic Ancestry Is not Associated with Breast Cancer Recurrence or Survival in U.S. Latina Women Enrolled in the Kaiser Permanente Pathways Study.Ancestry as a potential modifier of gene expression in breast tumors from Colombian women.Breast cancer in Latinas: a focus on intrinsic subtypes distribution.The effect of genetic variation in angiotensinogen on serum levels and blood pressure: a comparison of Nigerians and US blacks.Association between evolutionary history of angiotensinogen haplotypes and plasma levels.The San Francisco Cancer Initiative: A Community Effort To Reduce The Population Burden Of Cancer.Haplotypes produced from rare variants in the promoter and coding regions of angiotensinogen contribute to variation in angiotensinogen levelsBreast cancer subtype and survival among Indigenous American women in PeruEtiology and risk factorsEstrogenic activity, race/ethnicity, and Indigenous American ancestry among San Francisco Bay Area womenGenetic Epidemiology of Breast Cancer in Latin AmericaBreast Cancer in San Francisco: Disentangling Disparities at the Neighborhood LevelRisk Factors for Triple-Negative Breast Cancer among Latina WomenA polygenic risk score for breast cancer in U.S. Latinas and Latin-American women
P50
Q21134697-838F612B-0B33-4D5B-9402-89C86D01073BQ21562111-7C1EBFB2-3A06-4CB2-A2BD-2AEE85E6B69EQ26740043-3CEEFA48-E0B3-4ED4-9E5C-C303F9D82A67Q28388192-246C5E36-E0BD-42E8-8436-6A478463CFAAQ33450573-AF22E8BD-365E-45D9-BBDB-7B5DA39F4C2AQ33724850-94AD3CEB-B788-4E45-832F-1DBA11D42E55Q33780831-51290BBD-2F8B-4E65-8CAC-78A631C5A012Q34375940-AE079746-EDEE-4938-9FAC-B589DF5669B3Q34394958-CB6AA741-3CE9-4D6D-A7D1-8735FE9D268FQ34671809-CF49D901-B240-4AE4-B47D-93FB2796238DQ35856257-F45641BB-52D5-43C4-A21B-72CF009712CBQ36249029-E9CE5C28-FBD9-41B8-AEFB-1054A860989AQ36435849-70C8F013-71EA-457C-B906-B8D32511B193Q36767427-337DE391-6E26-4AC4-8E90-B9DD07947302Q37065332-0E640E46-B3F2-4CD9-B67A-0E4AE0804292Q37074050-E70215E7-BE3C-4600-93DD-D6FCA464E2ACQ37096057-153BBC07-27A7-473D-BCB7-8453A320171BQ37173291-3B42574E-E6B1-4179-B062-29EB7B660C8FQ37252497-856C7888-E2EB-4A3F-8BB9-A76B2B1B7591Q37436758-4DE2B3FF-DC30-48AD-B96D-0960BB76A4FAQ37437960-46300298-5433-412D-83D4-9EF7C7A37B50Q37509093-BBFC0259-42A3-4081-9380-41F212C2EEEFQ37610843-8478927E-F3E9-494F-A274-B7C61266FFF7Q37623689-7ABFE680-C7DB-4AC3-84AA-241ABADAECE8Q37675200-374506A5-82B1-49A8-8686-B80410BB802DQ40060934-9FB4E50D-4E3B-4C6A-8C36-7DDF9066CA10Q41498719-F01F6A3D-18FB-4EB0-B560-D107EB1673C7Q46371399-2ADDAAD6-5000-4153-980E-15CAFBF6F55EQ46461580-49C7C9C2-5349-4325-B2DB-325E39D59E47Q46952825-6C6C9923-F90B-44BF-B742-5C60D7624707Q47178536-26F37C00-3FC5-49D8-8864-43E55A50FAC1Q57278411-1CCAEDD0-20A4-4019-926E-202AF80CA599Q58763770-C3EBF556-9B10-460D-AAED-0A87039636A1Q59211741-FC3EF393-4754-4659-B367-720778AC9960Q64056652-B26CD018-2A71-4A66-98F2-A61C79639304Q64251583-1CF24CC8-4417-4EBD-9351-EEBAB0D525B0Q90238555-303E3202-9667-4C3C-BF0B-C2E81AADEE73Q92912587-FABC0CD5-78F2-4E8B-AD38-05F846D0B94DQ95729658-C91054E5-30CA-4139-A29A-51135DBE9019
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Laura Fejerman
@ast
Laura Fejerman
@en
Laura Fejerman
@es
Laura Fejerman
@fr
Laura Fejerman
@nl
Laura Fejerman
@sl
type
label
Laura Fejerman
@ast
Laura Fejerman
@en
Laura Fejerman
@es
Laura Fejerman
@fr
Laura Fejerman
@nl
Laura Fejerman
@sl
prefLabel
Laura Fejerman
@ast
Laura Fejerman
@en
Laura Fejerman
@es
Laura Fejerman
@fr
Laura Fejerman
@nl
Laura Fejerman
@sl
P106
P21
P31
P496
0000-0003-3179-1151