Arabinogalactan biosynthesis: implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus

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Arabinogalactan biosynthesis : implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus. / Poulsen, Christian Peter; Dilokpimol, Adiphol; Geshi, Naomi.

In: Plant Signalling & Behavior, Vol. 10, No. 2, e984524, 2015.

Research output: Contribution to journalLetterResearchpeer-review

Harvard

Poulsen, CP, Dilokpimol, A & Geshi, N 2015, 'Arabinogalactan biosynthesis: implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus', Plant Signalling & Behavior, vol. 10, no. 2, e984524. https://doi.org/10.4161/15592324.2014.984524

APA

Poulsen, C. P., Dilokpimol, A., & Geshi, N. (2015). Arabinogalactan biosynthesis: implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus. Plant Signalling & Behavior, 10(2), [e984524]. https://doi.org/10.4161/15592324.2014.984524

Vancouver

Poulsen CP, Dilokpimol A, Geshi N. Arabinogalactan biosynthesis: implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus. Plant Signalling & Behavior. 2015;10(2). e984524. https://doi.org/10.4161/15592324.2014.984524

Author

Poulsen, Christian Peter ; Dilokpimol, Adiphol ; Geshi, Naomi. / Arabinogalactan biosynthesis : implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus. In: Plant Signalling & Behavior. 2015 ; Vol. 10, No. 2.

Bibtex

@article{69c4f22120bc42398746337db160fbf3,
title = "Arabinogalactan biosynthesis: implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus",
abstract = "Arabinogalactan proteins are abundant cell surface proteoglycans in plants and are implicated to act as developmental markers during plant growth. We previously reported that AtGALT31A, AtGALT29A, and AtGLCAT14A-C, which are involved in the biosynthesis of arabinogalactan proteins, localize not only to the Golgi cisternae but also to smaller compartments, which may be a part of the unconventional protein secretory pathway in plants. In Poulsen et al.,1 we have demonstrated increased targeting of AtGALT29A to small compartments when Y144 is substituted with another amino acid, and we implicated a role for Y144 in the subcellular targeting of AtGALT29A. In this paper, we are presenting another aspect of Y144 substitution in AtGALT29A; namely, Y144A construct demonstrated a 2.5-fold increase while Y144E construct demonstrated a 2-fold decrease in the galactosyltransferase activity of AtGALT29A. Therefore, the electrostatic status of Y144, which is regulated by an unknown kinase/phosphatase system, may regulate AtGALT29A enzyme activity. Moreover, we have identified additional proteins, apyrase 3 (APY3; At1g14240) and UDPglucuronate epimerases 1 and 6 (GAE1, At4g30440; GAE6, At3g23820), from Arabidopsis thaliana that co-localize with AtGALT31A in the small compartments when expressed transiently in Nicotiana benthamiana. These proteins may play roles in nucleotide sugar metabolism in the small compartments together with arabinogalactan glycosyltransferases.",
keywords = "Arabinogalactan proteins, Exocyst-positive organelle, Glycosyltransferases, Plant cell wall, Plant proteoglycan, Protein O-glycosylation, Unconventional protein secretion",
author = "Poulsen, {Christian Peter} and Adiphol Dilokpimol and Naomi Geshi",
year = "2015",
doi = "10.4161/15592324.2014.984524",
language = "English",
volume = "10",
journal = "Plant Signalling & Behavior",
issn = "1559-2316",
publisher = "Taylor & Francis",
number = "2",

}

RIS

TY - JOUR

T1 - Arabinogalactan biosynthesis

T2 - implication of atGALT29A enzyme activity regulated by phosphorylation and co-localized enzymes for nucleotide sugar metabolism in the compartments outside of the Golgi apparatus

AU - Poulsen, Christian Peter

AU - Dilokpimol, Adiphol

AU - Geshi, Naomi

PY - 2015

Y1 - 2015

N2 - Arabinogalactan proteins are abundant cell surface proteoglycans in plants and are implicated to act as developmental markers during plant growth. We previously reported that AtGALT31A, AtGALT29A, and AtGLCAT14A-C, which are involved in the biosynthesis of arabinogalactan proteins, localize not only to the Golgi cisternae but also to smaller compartments, which may be a part of the unconventional protein secretory pathway in plants. In Poulsen et al.,1 we have demonstrated increased targeting of AtGALT29A to small compartments when Y144 is substituted with another amino acid, and we implicated a role for Y144 in the subcellular targeting of AtGALT29A. In this paper, we are presenting another aspect of Y144 substitution in AtGALT29A; namely, Y144A construct demonstrated a 2.5-fold increase while Y144E construct demonstrated a 2-fold decrease in the galactosyltransferase activity of AtGALT29A. Therefore, the electrostatic status of Y144, which is regulated by an unknown kinase/phosphatase system, may regulate AtGALT29A enzyme activity. Moreover, we have identified additional proteins, apyrase 3 (APY3; At1g14240) and UDPglucuronate epimerases 1 and 6 (GAE1, At4g30440; GAE6, At3g23820), from Arabidopsis thaliana that co-localize with AtGALT31A in the small compartments when expressed transiently in Nicotiana benthamiana. These proteins may play roles in nucleotide sugar metabolism in the small compartments together with arabinogalactan glycosyltransferases.

AB - Arabinogalactan proteins are abundant cell surface proteoglycans in plants and are implicated to act as developmental markers during plant growth. We previously reported that AtGALT31A, AtGALT29A, and AtGLCAT14A-C, which are involved in the biosynthesis of arabinogalactan proteins, localize not only to the Golgi cisternae but also to smaller compartments, which may be a part of the unconventional protein secretory pathway in plants. In Poulsen et al.,1 we have demonstrated increased targeting of AtGALT29A to small compartments when Y144 is substituted with another amino acid, and we implicated a role for Y144 in the subcellular targeting of AtGALT29A. In this paper, we are presenting another aspect of Y144 substitution in AtGALT29A; namely, Y144A construct demonstrated a 2.5-fold increase while Y144E construct demonstrated a 2-fold decrease in the galactosyltransferase activity of AtGALT29A. Therefore, the electrostatic status of Y144, which is regulated by an unknown kinase/phosphatase system, may regulate AtGALT29A enzyme activity. Moreover, we have identified additional proteins, apyrase 3 (APY3; At1g14240) and UDPglucuronate epimerases 1 and 6 (GAE1, At4g30440; GAE6, At3g23820), from Arabidopsis thaliana that co-localize with AtGALT31A in the small compartments when expressed transiently in Nicotiana benthamiana. These proteins may play roles in nucleotide sugar metabolism in the small compartments together with arabinogalactan glycosyltransferases.

KW - Arabinogalactan proteins

KW - Exocyst-positive organelle

KW - Glycosyltransferases

KW - Plant cell wall

KW - Plant proteoglycan

KW - Protein O-glycosylation

KW - Unconventional protein secretion

U2 - 10.4161/15592324.2014.984524

DO - 10.4161/15592324.2014.984524

M3 - Letter

C2 - 25723364

AN - SCOPUS:84926362212

VL - 10

JO - Plant Signalling & Behavior

JF - Plant Signalling & Behavior

SN - 1559-2316

IS - 2

M1 - e984524

ER -

ID: 160024748