The pentose phosphate pathway in yeasts–more than a poor cousin of glycolysis
LK Bertels, L Fernández Murillo, JJ Heinisch - Biomolecules, 2021 - mdpi.com
The pentose phosphate pathway (PPP) is a route that can work in parallel to glycolysis in
glucose degradation in most living cells. It has a unidirectional oxidative part with glucose-6 …
glucose degradation in most living cells. It has a unidirectional oxidative part with glucose-6 …
Advances in antitumor nanomedicine based on functional metal–organic frameworks beyond drug carriers
Q Wei, Y Wu, F Liu, J Cao, J Liu - Journal of Materials Chemistry B, 2022 - pubs.rsc.org
Nanoscale metal–organic frameworks (MOFs) have attracted widespread interest due to
their unique properties including a tunable porous structure, high drug loading capacity …
their unique properties including a tunable porous structure, high drug loading capacity …
The pentose phosphate pathway and organization of metabolic networks enabling growth programs
Z Rashida, S Laxman - Current Opinion in Systems Biology, 2021 - Elsevier
Abstract 'The whole is greater than the sum of its parts', a quote misattributed to Aristotle, is
especially true for metabolic networks and the key metabolic reactions within. Here …
especially true for metabolic networks and the key metabolic reactions within. Here …
Quiescence through the prism of evolution
B Daignan-Fornier, D Laporte, I Sagot - Frontiers in Cell and …, 2021 - frontiersin.org
Being able to reproduce and survive is fundamental to all forms of life. In primitive unicellular
organisms, the emergence of quiescence as a reversible proliferation arrest has most likely …
organisms, the emergence of quiescence as a reversible proliferation arrest has most likely …
[PDF][PDF] Predicting by-product gradients of baker's yeast production at industrial scale: A practical simulation approach
CSS Hajian, C Haringa, H Noorman… - CFD Modeling of Complex …, 2021 - mdpi.com
Scaling up bioprocesses is one of the most crucial steps in the commercialization of
bioproducts. While it is known that concentration and shear rate gradients occur at larger …
bioproducts. While it is known that concentration and shear rate gradients occur at larger …
Chromatin structure restricts origin utilization when quiescent cells re-enter the cell cycle
PH Lee, MA Osley - Nucleic Acids Research, 2021 - academic.oup.com
Quiescent cells reside in G0 phase, which is characterized by the absence of cell growth
and proliferation. These cells remain viable and re-enter the cell cycle when prompted by …
and proliferation. These cells remain viable and re-enter the cell cycle when prompted by …
Thermal fatigue life of Sn–3.0 Ag–0.5 Cu solder joint under temperature cycling coupled with electric current
X Long, Y Liu, F Jia, Y Wu, Y Fu, C Zhou - Journal of Materials Science …, 2019 - Springer
In this paper, the physical and mechanical properties of Sn–3.0 Ag–0.5 Cu (SAC305) solder
and the thermal fatigue properties of solder joints under different electric current densities …
and the thermal fatigue properties of solder joints under different electric current densities …
Two-way communication between cell cycle and metabolism in budding yeast: what do we know?
Y Zhang, L van der Zee, M Barberis - Frontiers in microbiology, 2023 - frontiersin.org
Coordination of cell cycle and metabolism exists in all cells. The building of a new cell is a
process that requires metabolic commitment to the provision of both Gibbs energy and …
process that requires metabolic commitment to the provision of both Gibbs energy and …
[HTML][HTML] A peculiar cell cycle arrest at g2/m stage during the stationary phase of growth in the wine yeast Hanseniaspora vineae.
LV Schwarz, MJ Valera, APL Delamare… - Current Research in …, 2022 - Elsevier
Yeasts of the genus Hanseniaspora gained notoriety in the last years due to their
contribution to wine quality, and their loss of several genes, mainly related to DNA repair …
contribution to wine quality, and their loss of several genes, mainly related to DNA repair …