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W2046225863 endingPage "393" @default.
W2046225863 startingPage "379" @default.
W2046225863 abstract "The retrograde transport pathways from early/recycling endosomes are critical for recycling a range of endogenous cargo, as well as internalisation of bacterial and plant toxins. We have previously shown that the retrograde transport of the two model cargos, TGN38 and Shiga toxin, differs in the requirement for TGN golgins; transport of TGN38 requires the TGN golgin GCC88 whereas that of Shiga toxin requires GCC185. Here we have further defined the retrograde transport requirements of these two cargos. Tracking the transport of these cargos demonstrated that the bulk of Shiga toxin is transported from early endosomes to recycling endosomes en route to the TGN whereas the bulk of TGN38 is transported from early endosomes to the TGN with only low levels detected in recycling endosomes. In cells depleted of the TGN t-SNARE syntaxin 16, TGN38 accumulated predominantly in early endosomes whereas Shiga toxin accumulated in Rab11-positive recycling endosomes, suggesting distinct routes for each cargo. Retrograde transport of Shiga toxin and TGN38 requires retromer, however, whereas sorting nexin 1 (SNX1) is specifically required for transport of Shiga toxin, sorting nexin 2 (SNX2) is required for the transport of TGN38. Overall, our data have identified different itineraries for the retrograde transport of Shiga toxin and TGN38 and distinct retromer components that regulate the transport of these cargos." @default.
W2046225863 created "2016-06-24" @default.
W2046225863 creator A5010308411 @default.
W2046225863 creator A5052519554 @default.
W2046225863 date "2010-05-01" @default.
W2046225863 modified "2023-09-23" @default.
W2046225863 title "Identification of different itineraries and retromer components for endosome-to-Golgi transport of TGN38 and Shiga toxin" @default.
W2046225863 cites W1485982200 @default.
W2046225863 cites W1537883814 @default.
W2046225863 cites W1544033945 @default.
W2046225863 cites W1550275859 @default.
W2046225863 cites W1557487116 @default.
W2046225863 cites W1589276697 @default.
W2046225863 cites W1826524642 @default.
W2046225863 cites W1940760798 @default.
W2046225863 cites W1966309059 @default.
W2046225863 cites W1969559038 @default.
W2046225863 cites W1972120303 @default.
W2046225863 cites W1977246577 @default.
W2046225863 cites W1980269923 @default.
W2046225863 cites W1982675242 @default.
W2046225863 cites W1983905600 @default.
W2046225863 cites W1986415802 @default.
W2046225863 cites W1988162733 @default.
W2046225863 cites W1990279529 @default.
W2046225863 cites W1994108158 @default.
W2046225863 cites W1995179154 @default.
W2046225863 cites W1999056400 @default.
W2046225863 cites W1999291387 @default.
W2046225863 cites W2003731107 @default.
W2046225863 cites W2007764474 @default.
W2046225863 cites W2017886031 @default.
W2046225863 cites W2031653487 @default.
W2046225863 cites W2038750623 @default.
W2046225863 cites W2042195196 @default.
W2046225863 cites W2044362476 @default.
W2046225863 cites W2044778337 @default.
W2046225863 cites W2046199185 @default.
W2046225863 cites W2047602427 @default.
W2046225863 cites W2053810887 @default.
W2046225863 cites W2053940210 @default.
W2046225863 cites W2058783795 @default.
W2046225863 cites W2062206747 @default.
W2046225863 cites W2062772445 @default.
W2046225863 cites W2063214782 @default.
W2046225863 cites W2063663222 @default.
W2046225863 cites W2071748447 @default.
W2046225863 cites W2076480502 @default.
W2046225863 cites W2079821886 @default.
W2046225863 cites W2080748373 @default.
W2046225863 cites W2082825744 @default.
W2046225863 cites W2083045229 @default.
W2046225863 cites W2089695433 @default.
W2046225863 cites W2091599508 @default.
W2046225863 cites W2093767206 @default.
W2046225863 cites W2094001311 @default.
W2046225863 cites W2096603548 @default.
W2046225863 cites W2099089545 @default.
W2046225863 cites W2114912316 @default.
W2046225863 cites W2120419344 @default.
W2046225863 cites W2129904159 @default.
W2046225863 cites W2130216670 @default.
W2046225863 cites W2130448506 @default.
W2046225863 cites W2136833317 @default.
W2046225863 cites W2137943169 @default.
W2046225863 cites W2142725399 @default.
W2046225863 cites W2143487345 @default.
W2046225863 cites W2148184199 @default.
W2046225863 cites W2148838925 @default.
W2046225863 cites W2150187881 @default.
W2046225863 cites W2153776880 @default.
W2046225863 cites W2155723410 @default.
W2046225863 cites W2156212279 @default.
W2046225863 cites W2158097661 @default.
W2046225863 cites W2163222439 @default.
W2046225863 cites W2167221791 @default.
W2046225863 cites W2168754544 @default.
W2046225863 cites W2185681122 @default.
W2046225863 cites W4243195227 @default.
W2046225863 doi "https://doi.org/10.1016/j.ejcb.2009.10.021" @default.
W2046225863 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20138391" @default.
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