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Fructose‐1,6‐bisphosphatase degradation in the methylotrophic yeast Komagataella phaffii occurs in autophagy pathway
Author(s) -
Dmytruk Olena,
Bulbotka Nina,
Zazulya Anastasya,
Semkiv Marta,
Dmytruk Kostyantyn,
Sibirny Andriy
Publication year - 2021
Publication title -
cell biology international
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.932
H-Index - 77
eISSN - 1095-8355
pISSN - 1065-6995
DOI - 10.1002/cbin.11304
Subject(s) - peroxisome , biochemistry , lactacystin , cytosol , mg132 , fructose 1,6 bisphosphatase , biology , green fluorescent protein , proteasome , vacuole , fructose , enzyme , proteasome inhibitor , chemistry , gene , cytoplasm
Abstract Many enzymes of methanol metabolism of methylotrophic yeasts are located in peroxisomes whereas some of them have the cytosolic localization. After shift of methanol‐grown cells of methylotrophic yeasts to glucose medium, a decrease in the activity of cytosolic (formaldehyde dehydrogenase, formate dehydrogenase, and fructose‐1,6‐bisphosphatase [FBP]) along with peroxisomal enzymes of methanol metabolism is observed. Mechanisms of inactivation of cytosolic enzymes remain unknown. To study the mechanism of FBP inactivation, the changes in its specific activity of the wild type strain GS200, the strain with the deletion of the GSS1 hexose sensor gene and strain defected in autophagy pathway SMD1163 of Komagataella phaffii with or without the addition of the MG132 (proteasome degradation inhibitor) were investigated after shift of methanol‐grown cells in glucose medium. Western blot analysis showed that inactivation of FBP in GS200 occurred due to protein degradation whereas inactivation in the strains SMD1163 and gss1Δ was negligible in such conditions. The effect of the proteasome inhibitor MG132 on FBP inactivation was insignificant. To confirm FBP degradation pathway, the recombinant strains with GFP‐labeled Fbp1 of K. phaffii and red fluorescent protein‐labeled peroxisomes were constructed on the background of GS200 and SMD1163. The fluorescent microscopy analysis of the constructed strains was performed using the vacuolar membrane dye FM4‐64. Microscopic data confirmed that Fbp1 degrades by autophagy pathway in K. phaffii. K. phaffii transformants, which express heterologous β‐galactosidase under FLD promoter, have been constructed.

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