SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022264956> ?p ?o ?g. }

Showing items 1 to 100 of ±180 with 100 items per page.

W2022264956 endingPage "1289" @default.
W2022264956 startingPage "1277" @default.
W2022264956 abstract "Glycosylation processes are under high natural selection pressure, presumably because these can modulate resistance to infection. Here, we asked whether inactivation of the UDP-galactose:β-galactoside-α1-3-galactosyltransferase (α1,3GT) gene, which ablated the expression of the Galα1-3Galβ1-4GlcNAc-R (α-gal) glycan and allowed for the production of anti-α-gal antibodies (Abs) in humans, confers protection against Plasmodium spp. infection, the causative agent of malaria and a major driving force in human evolution. We demonstrate that both Plasmodium spp. and the human gut pathobiont E. coli O86:B7 express α-gal and that anti-α-gal Abs are associated with protection against malaria transmission in humans as well as in α1,3GT-deficient mice, which produce protective anti-α-gal Abs when colonized by E. coli O86:B7. Anti-α-gal Abs target Plasmodium sporozoites for complement-mediated cytotoxicity in the skin, immediately after inoculation by Anopheles mosquitoes. Vaccination against α-gal confers sterile protection against malaria in mice, suggesting that a similar approach may reduce malaria transmission in humans.PaperFlickeyJraWQiOiI4ZjUxYWNhY2IzYjhiNjNlNzFlYmIzYWFmYTU5NmZmYyIsImFsZyI6IlJTMjU2In0.eyJzdWIiOiJiNTY4NTRiOWEwMzIyNWVjNWEzMTFiZDRmYTQxMTIwOSIsImtpZCI6IjhmNTFhY2FjYjNiOGI2M2U3MWViYjNhYWZhNTk2ZmZjIiwiZXhwIjoxNjc4NzQ3Nzc5fQ.FFm8bZwzFwf7ajRNPM8XiJYlfsSoyXTz1Ehe5Dnl8ta2OY-zgj6uoklOXV19Mj0ap2M2KrOxZjCELRFF59w5lXx893MAS34swgIlR0zKXUIQIZ4wIDwODquRe4ZiBkjA4xQzH9O1ADIUqm4_koBGYcqsWHcxFFFmkGu8vRx-iMwDhHWr3onX6H2OBvhPIQfR7DWI3kAD1mX-0bUdQdMEsUJ5fIl0frpAq9b0pDEK6lUp_bX-E68kxNuGVYyFW2seS7OjE75JleZyTTzjHIrkEV2AyMBLS0w-REpyXPcHmL9-JwKL2GT8ewKK7Eu7G5UWQ8KVa1yhJQCM3nV5LMqQfg(mp4, (15.01 MB) Download video" @default.
W2022264956 created "2016-06-24" @default.
W2022264956 creator A5014145862 @default.
W2022264956 creator A5022424808 @default.
W2022264956 creator A5039238202 @default.
W2022264956 creator A5049200637 @default.
W2022264956 creator A5050452200 @default.
W2022264956 creator A5053385941 @default.
W2022264956 creator A5053671869 @default.
W2022264956 creator A5056529696 @default.
W2022264956 creator A5067643807 @default.
W2022264956 creator A5067910050 @default.
W2022264956 creator A5078519013 @default.
W2022264956 creator A5081137602 @default.
W2022264956 creator A5084494312 @default.
W2022264956 creator A5090706571 @default.
W2022264956 creator A5091105548 @default.
W2022264956 date "2014-12-01" @default.
W2022264956 modified "2023-10-17" @default.
W2022264956 title "Gut Microbiota Elicits a Protective Immune Response against Malaria Transmission" @default.
W2022264956 cites W1491146431 @default.
W2022264956 cites W1532438728 @default.
W2022264956 cites W1557000134 @default.
W2022264956 cites W1566087712 @default.
W2022264956 cites W1594300813 @default.
W2022264956 cites W1607744302 @default.
W2022264956 cites W1907515023 @default.
W2022264956 cites W1952409045 @default.
W2022264956 cites W1974375895 @default.
W2022264956 cites W1977961016 @default.
W2022264956 cites W1979654387 @default.
W2022264956 cites W1980027223 @default.
W2022264956 cites W1980752431 @default.
W2022264956 cites W1981397431 @default.
W2022264956 cites W1987296519 @default.
W2022264956 cites W1992562335 @default.
W2022264956 cites W1995149604 @default.
W2022264956 cites W1996822762 @default.
W2022264956 cites W1999416747 @default.
W2022264956 cites W2002448880 @default.
W2022264956 cites W2002697968 @default.
W2022264956 cites W2004972574 @default.
W2022264956 cites W2010024509 @default.
W2022264956 cites W2011603010 @default.
W2022264956 cites W2011752583 @default.
W2022264956 cites W2015494532 @default.
W2022264956 cites W2015569525 @default.
W2022264956 cites W2021528981 @default.
W2022264956 cites W2026828421 @default.
W2022264956 cites W2027037665 @default.
W2022264956 cites W2034516018 @default.
W2022264956 cites W2035736772 @default.
W2022264956 cites W2037871512 @default.
W2022264956 cites W2038073476 @default.
W2022264956 cites W2038446694 @default.
W2022264956 cites W2046549218 @default.
W2022264956 cites W2046555621 @default.
W2022264956 cites W2053200644 @default.
W2022264956 cites W2053580931 @default.
W2022264956 cites W2065943556 @default.
W2022264956 cites W2073529249 @default.
W2022264956 cites W2075901113 @default.
W2022264956 cites W2076036418 @default.
W2022264956 cites W2077553363 @default.
W2022264956 cites W2088380202 @default.
W2022264956 cites W2094067775 @default.
W2022264956 cites W2094431581 @default.
W2022264956 cites W2097218658 @default.
W2022264956 cites W2102681577 @default.
W2022264956 cites W2108895381 @default.
W2022264956 cites W2109226017 @default.
W2022264956 cites W2114814098 @default.
W2022264956 cites W2119855808 @default.
W2022264956 cites W2120495574 @default.
W2022264956 cites W2121635085 @default.
W2022264956 cites W2121996637 @default.
W2022264956 cites W2125354474 @default.
W2022264956 cites W2125870035 @default.
W2022264956 cites W2127567785 @default.
W2022264956 cites W2130386606 @default.
W2022264956 cites W2130622312 @default.
W2022264956 cites W2136482421 @default.
W2022264956 cites W2136823769 @default.
W2022264956 cites W2145816265 @default.
W2022264956 cites W2148591507 @default.
W2022264956 cites W2151597897 @default.
W2022264956 cites W2157933004 @default.
W2022264956 cites W2160667051 @default.
W2022264956 cites W2161868263 @default.
W2022264956 cites W2162373569 @default.
W2022264956 cites W2165608602 @default.
W2022264956 cites W2170073092 @default.
W2022264956 cites W2171720113 @default.
W2022264956 cites W2414632560 @default.
W2022264956 cites W2416997090 @default.
W2022264956 cites W2557319923 @default.
W2022264956 cites W83581124 @default.
W2022264956 doi "https://doi.org/10.1016/j.cell.2014.10.053" @default.