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Arunima Sikdar
Graduate University for Advanced Studies
3Publications
2H-index
6Citations
Publications 3
Newest
Published on Jan 17, 2018
Maho Yagi-Utsumi6
Estimated H-index: 6
,
Arunima Sikdar2
Estimated H-index: 2
+ 5 AuthorsKoichi Kato50
Estimated H-index: 50
Source Cite
Published on Jan 1, 2018in Protein Engineering Design & Selection 1.98
Maho Yagi-Utsumi6
Estimated H-index: 6
(Nagoya City University),
Arunima Sikdar2
Estimated H-index: 2
(Graduate University for Advanced Studies)
+ 6 AuthorsKoichi Kato50
Estimated H-index: 50
(Nagoya City University)
2 Citations Source Cite
Published on Oct 1, 2014in Biochemical and Biophysical Research Communications 2.71
Arunima Sikdar2
Estimated H-index: 2
(Nagoya City University),
Tadashi Satoh15
Estimated H-index: 15
(Nagoya City University)
+ 1 AuthorsKoichi Kato50
Estimated H-index: 50
(Nagoya City University)
Abstract Formation of the eukaryotic proteasome is not a spontaneous process but a highly ordered process assisted by several assembly chaperones. In contrast, archaeal proteasome subunits can spontaneously assemble into an active form. Recent bioinformatic analysis identified the proteasome-assembly chaperone-like proteins, PbaA and PbaB, in archaea. Our previous study showed that the PbaB homotetramer functions as a proteasome activator through its tentacle-like C-terminal segments. However, a...
4 Citations Source Cite
1