Skip Nav Destination
1-9 of 9
Keywords: intracellular transportClose
Biochem J (2021) 478 (22): 3977–3998.
Published: 23 November 2021
... ) * These authors contributed equally to this work. 1 2 2021 12 10 2021 1 11 2021 © 2021 The Author(s). Published by Portland Press Limited on behalf of the Biochemical Society 2021 cell-cell communication cytoskeletal dynamics intracellular transport membrane dynamics tunneling...
L. Roxana Gutierrez-Armijos, Rodrigo A. C. Sussmann, Ariel M. Silber, Mauro Cortez, Agustín Hernández
Biochem J (2020) 477 (24): 4729–4744.
Published: 18 December 2020
... cell wall fungicide intracellular transport signaling sterols Membrane embedded proteins are affected by their lipid environment in similar ways as they are by aqueous factors like pH or ionic strength. In this sense, abnormal sterols can be considered powerful disruptors of normal function...
Includes: Supplementary data
Biochem J (2020) 477 (1): 23–44.
Published: 08 January 2020
... intracellular transport mRNA nuclear pores nucleoporins In eukaryotes, the nuclear envelope (NE) serves as a barrier between the genetic material contained in the nucleus and the cytoplasm [ 1 , 2 ]. In particular, it separates the sites of transcription and translation, an important prerequisite...
Simona Kavaliauskiene, Tore Skotland, Tuulia Sylvänne, Helena Simolin, Tove Irene Klokk, Maria Lyngaas Torgersen, Anne Berit Dyve Lingelem, Roger Simm, Kim Ekroos, Kirsten Sandvig
Biochem J (2015) 470 (1): 23–37.
Published: 06 August 2015
..., including autophagy, apoptosis and cell cycle control, little is known about the effects of 2DG on intracellular transport, which is of great importance when predicting the effects of 2DG on therapeutic agents. In addition to proteins, lipids play important roles in cellular signalling and in controlling...
Includes: Supplementary data
Gaute HANSEN, Thomas BERG, Hilde M. F. RIISE STENSLAND, Pirkko HEIKINHEIMO, Helle KLENOW, Gry EVJEN, Øivind NILSSEN, Ole K. TOLLERSRUD
Biochem J (2004) 381 (2): 537–546.
Published: 06 July 2004
..., London 2004 inherited disease intracellular transport lysosomal α-mannosidase lysosome α-mannosidosis Lysosomal α-mannosidase (LAMAN; EC 126.96.36.199) belongs to GH38 (glycosylhydrolase family 38) [ 1 ]. It is an acidic exoglycosidase that cleaves α-1,2, α-1, 3 and α-1, 6 mannosidic...
Biochem J (2002) 362 (3): 597–607.
Published: 08 March 2002
...Richard LUNDMARK; Sven R. CARLSSON Adaptor protein (AP) complexes are essential components for the formation of coated vesicles and the recognition of cargo proteins for intracellular transport. Each AP complex exposes two appendage domains with that function to bind regulatory accessory proteins...
Biochem J (2002) 362 (2): 259–264.
Published: 22 February 2002
... to enzyme activity. In addition, they also establish that the C-terminal domain is absolutely essential for the correct post-translational folding of the enzyme that is responsible for its activity and allows for its secretion. exocrine pancreas folding glycohydrolase intracellular transport zymogen...
Biochem J (2002) 361 (3): 473–480.
Published: 25 January 2002
... at the cell surface. 1 To whom correspondence should be addressed (e-mail firstname.lastname@example.org ). 15 6 2001 17 9 2001 23 11 2001 The Biochemical Society, London ©2002 2002 aggregation hypomineralization intracellular transport missense mutation proteasomes...
Sandrine SIFFROI-FERNANDEZ, Sabine COSTAGLIOLA, Sophie PAUMEL, Annie GIRAUD, J. Paul BANGA, Jean-Louis FRANC
Biochem J (2001) 354 (2): 331–336.
Published: 22 February 2001
... transport and (ii) an increase of TSHR susceptibility to proteases that remove the C peptide. We then hypothesized that removal of the C peptide could contribute to the formation of a non-functional TSHR. deoxymannojirimycin N-glycan intracellular transport TSH receptor tunicamycin 1...