Additional file 10: of Genetic determinants of anti-malarial acquired immunity in a large multi-centre study
Jennifer Shelton
Patrick Corran
Paul Risley
Nilupa Silva
Christina Hubbart
Anna Jeffreys
Kate Rowlands
Rachel Craik
Victoria Cornelius
Meike Hensmann
Sile Molloy
Nuno Sepulveda
Taane Clark
Gavin Band
Geraldine Clarke
Christopher Spencer
Angeliki Kerasidou
Susana Campino
Sarah Auburn
Adama Tall
Alioune Ly
Odile Mercereau-Puijalon
Anavaj Sakuntabhai
Abdoulaye DjimdĂŠ
Boubacar Maiga
Ousmane TourĂŠ
Ogobara Doumbo
Amagana Dolo
Marita Troye-Blomberg
Valentina Mangano
Frederica Verra
David Modiano
Edith Bougouma
Sodiomon Sirima
Muntaser Ibrahim
Ayman Hussain
Nahid Eid
Abier Elzein
Hiba Mohammed
Ahmed Elhassan
Ibrahim Elhassan
Thomas Williams
Carolyne Ndila
Alexander Macharia
Kevin Marsh
Alphaxard Manjurano
Hugh Reyburn
Martha Lemnge
Deus Ishengoma
Richard Carter
Nadira Karunaweera
Deepika Fernando
Rajika Dewasurendra
Christopher Drakeley
Eleanor Riley
Dominic Kwiatkowski
Kirk Rockett
10.6084/m9.figshare.c.3624038_D8.v1
https://springernature.figshare.com/articles/journal_contribution/Additional_file_10_of_Genetic_determinants_of_anti-malarial_acquired_immunity_in_a_large_multi-centre_study/4402982
Additional figure SF4: Scatter plot of the correlations between residuals from the antibody linear regression models with non-genetic factors at each site and age-group. This plot shows the pairwise correlations (as r2) for each malariaâmalaria antibody pair as a function of each study site. The sites are ordered according to malaria microscopically-positive-prevalence recorded at sample collection (low to high). Several panels are shown according to age-group.
2015-08-28 05:00:00
Malaria
Antibody
Sickle cell trait
HbAS
CD36
Genotype