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Items: 1 to 20 of 91

2.

Folding, trimerization, and transport are sequential events in the biogenesis of influenza virus hemagglutinin.

Copeland CS, Zimmer KP, Wagner KR, Healey GA, Mellman I, Helenius A.

Cell. 1988 Apr 22;53(2):197-209.

PMID:
3359486
3.

Interactions of misfolded influenza virus hemagglutinin with binding protein (BiP).

Hurtley SM, Bole DG, Hoover-Litty H, Helenius A, Copeland CS.

J Cell Biol. 1989 Jun;108(6):2117-26.

4.

Glycosylation requirements for intracellular transport and function of the hemagglutinin of influenza virus.

Gallagher PJ, Henneberry JM, Sambrook JF, Gething MJ.

J Virol. 1992 Dec;66(12):7136-45.

5.

Assembly of influenza hemagglutinin trimers and its role in intracellular transport.

Copeland CS, Doms RW, Bolzau EM, Webster RG, Helenius A.

J Cell Biol. 1986 Oct;103(4):1179-91.

6.

Manipulating disulfide bond formation and protein folding in the endoplasmic reticulum.

Braakman I, Helenius J, Helenius A.

EMBO J. 1992 May;11(5):1717-22.

8.

The influenza hemagglutinin precursor as an acid-sensitive probe of the biosynthetic pathway.

Boulay F, Doms RW, Wilson I, Helenius A.

EMBO J. 1987 Sep;6(9):2643-50.

9.

Folding of influenza hemagglutinin in the endoplasmic reticulum.

Braakman I, Hoover-Litty H, Wagner KR, Helenius A.

J Cell Biol. 1991 Aug;114(3):401-11.

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13.

Posttranslational oligomerization and cooperative acid activation of mixed influenza hemagglutinin trimers.

Boulay F, Doms RW, Webster RG, Helenius A.

J Cell Biol. 1988 Mar;106(3):629-39.

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Cotranslational folding and calnexin binding during glycoprotein synthesis.

Chen W, Helenius J, Braakman I, Helenius A.

Proc Natl Acad Sci U S A. 1995 Jul 3;92(14):6229-33.

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