Literature DB >> 30087207

PUX10 Is a Lipid Droplet-Localized Scaffold Protein That Interacts with CELL DIVISION CYCLE48 and Is Involved in the Degradation of Lipid Droplet Proteins.

Franziska K Kretzschmar1, Laura A Mengel1, Anna O Müller1, Kerstin Schmitt2, Katharina F Blersch1, Oliver Valerius2, Gerhard H Braus2, Till Ischebeck3.   

Abstract

The number of known proteins associated with plant lipid droplets (LDs) is small compared with other organelles. Many aspects of LD biosynthesis and degradation are unknown, and identifying and characterizing candidate LD proteins could help elucidate these processes. Here, we analyzed the proteome of LD-enriched fractions isolated from tobacco (Nicotiana tabacum) pollen tubes. Proteins that were highly enriched in comparison with the total or cytosolic fraction were further tested for LD localization via transient expression in pollen tubes. One of these proteins, PLANT UBX DOMAIN-CONTAINING PROTEIN10 (PUX10), is a member of the plant UBX domain-containing (PUX) protein family. This protein localizes to LDs via a unique hydrophobic polypeptide sequence and can recruit the AAA-type ATPase CELL DIVISION CYCLE48 (CDC48) protein via its UBX domain. PUX10 is conserved in Arabidopsis thaliana and expressed in embryos, pollen tubes, and seedlings. In pux10 knockout mutants in Arabidopsis, LD size is significantly increased. Proteomic analysis of pux10 mutants revealed a delayed degradation of known LD proteins, some of which possessed ubiquitination sites. We propose that PUX10 is involved in a protein degradation pathway at LDs, mediating an interaction between polyubiquitinated proteins targeted for degradation and downstream effectors such as CDC48.
© 2018 American Society of Plant Biologists. All rights reserved.

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Year:  2018        PMID: 30087207      PMCID: PMC6181012          DOI: 10.1105/tpc.18.00276

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  105 in total

1.  Predicting transmembrane protein topology with a hidden Markov model: application to complete genomes.

Authors:  A Krogh; B Larsson; G von Heijne; E L Sonnhammer
Journal:  J Mol Biol       Date:  2001-01-19       Impact factor: 5.469

2.  Arabidopsis lipid droplet-associated protein (LDAP) - interacting protein (LDIP) influences lipid droplet size and neutral lipid homeostasis in both leaves and seeds.

Authors:  Michal Pyc; Yingqi Cai; Satinder K Gidda; Olga Yurchenko; Sunjung Park; Franziska K Kretzschmar; Till Ischebeck; Oliver Valerius; Gerhard H Braus; Kent D Chapman; John M Dyer; Robert T Mullen
Journal:  Plant J       Date:  2017-11-27       Impact factor: 6.417

3.  Vacuolar CBL-CIPK12 Ca(2+)-sensor-kinase complexes are required for polarized pollen tube growth.

Authors:  Leonie Steinhorst; Anette Mähs; Till Ischebeck; Chunxia Zhang; Xinxin Zhang; Sibylle Arendt; Stefanie Schültke; Ingo Heilmann; Jörg Kudla
Journal:  Curr Biol       Date:  2015-04-30       Impact factor: 10.834

4.  The accumulation of oleosins determines the size of seed oilbodies in Arabidopsis.

Authors:  Rodrigo M P Siloto; Kim Findlay; Arturo Lopez-Villalobos; Edward C Yeung; Cory L Nykiforuk; Maurice M Moloney
Journal:  Plant Cell       Date:  2006-07-28       Impact factor: 11.277

5.  The ubiquitin-like (UBX)-domain-containing protein Ubx2/Ubxd8 regulates lipid droplet homeostasis.

Authors:  Chao-Wen Wang; Shu-Chuan Lee
Journal:  J Cell Sci       Date:  2012-03-27       Impact factor: 5.285

6.  Identification of a new class of lipid droplet-associated proteins in plants.

Authors:  Patrick J Horn; Christopher N James; Satinder K Gidda; Aruna Kilaru; John M Dyer; Robert T Mullen; John B Ohlrogge; Kent D Chapman
Journal:  Plant Physiol       Date:  2013-07-02       Impact factor: 8.340

7.  Involvement of the phospholipid sterol acyltransferase1 in plant sterol homeostasis and leaf senescence.

Authors:  Pierrette Bouvier-Navé; Anne Berna; Alexandre Noiriel; Vincent Compagnon; Anders S Carlsson; Antoni Banas; Sten Stymne; Hubert Schaller
Journal:  Plant Physiol       Date:  2009-11-18       Impact factor: 8.340

8.  Genome-wide insertional mutagenesis of Arabidopsis thaliana.

Authors:  José M Alonso; Anna N Stepanova; Thomas J Leisse; Christopher J Kim; Huaming Chen; Paul Shinn; Denise K Stevenson; Justin Zimmerman; Pascual Barajas; Rosa Cheuk; Carmelita Gadrinab; Collen Heller; Albert Jeske; Eric Koesema; Cristina C Meyers; Holly Parker; Lance Prednis; Yasser Ansari; Nathan Choy; Hashim Deen; Michael Geralt; Nisha Hazari; Emily Hom; Meagan Karnes; Celene Mulholland; Ral Ndubaku; Ian Schmidt; Plinio Guzman; Laura Aguilar-Henonin; Markus Schmid; Detlef Weigel; David E Carter; Trudy Marchand; Eddy Risseeuw; Debra Brogden; Albana Zeko; William L Crosby; Charles C Berry; Joseph R Ecker
Journal:  Science       Date:  2003-08-01       Impact factor: 47.728

9.  Oleosins in the gametophytes of Pinus and Brassica and their phylogenetic relationship with those in the sporophytes of various species.

Authors:  K Lee; F Y Bih; G H Learn; J T Ting; C Sellers; A H Huang
Journal:  Planta       Date:  1994       Impact factor: 4.116

10.  Cloning and characterization of the acid lipase from castor beans.

Authors:  Peter J Eastmond
Journal:  J Biol Chem       Date:  2004-08-19       Impact factor: 5.157
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  20 in total

1.  The Puzzling Conservation and Diversification of Lipid Droplets from Bacteria to Eukaryotes.

Authors:  Josselin Lupette; Eric Maréchal
Journal:  Results Probl Cell Differ       Date:  2020

2.  A Lipid Droplet-Associated Degradation System in Plants.

Authors:  Kathleen L Farquharson
Journal:  Plant Cell       Date:  2018-08-15       Impact factor: 11.277

3.  Identification of Low-Abundance Lipid Droplet Proteins in Seeds and Seedlings.

Authors:  Franziska K Kretzschmar; Nathan M Doner; Hannah E Krawczyk; Patricia Scholz; Kerstin Schmitt; Oliver Valerius; Gerhard H Braus; Robert T Mullen; Till Ischebeck
Journal:  Plant Physiol       Date:  2019-12-11       Impact factor: 8.340

4.  Autophagy Plays Prominent Roles in Amino Acid, Nucleotide, and Carbohydrate Metabolism during Fixed-Carbon Starvation in Maize.

Authors:  Fionn McLoughlin; Richard S Marshall; Xinxin Ding; Elizabeth C Chatt; Liam D Kirkpatrick; Robert C Augustine; Faqiang Li; Marisa S Otegui; Richard D Vierstra
Journal:  Plant Cell       Date:  2020-07-02       Impact factor: 11.277

5.  Three-nucleotide periodicity of nucleotide diversity in a population enables the identification of open reading frames.

Authors:  Mengyun Jiang; Weidong Ning; Shishi Wu; Xingwei Wang; Kun Zhu; Aomei Li; Yongyao Li; Shifeng Cheng; Bo Song
Journal:  Brief Bioinform       Date:  2022-07-18       Impact factor: 13.994

6.  Isolation of Lipid Droplets for Protein and Lipid Analysis.

Authors:  Patrick J Horn; Kent D Chapman; Till Ischebeck
Journal:  Methods Mol Biol       Date:  2021

7.  The phosphatidylethanolamine-binding protein DTH1 mediates degradation of lipid droplets in Chlamydomonas reinhardtii.

Authors:  Jihyeon Lee; Yasuyo Yamaoka; Fantao Kong; Caroline Cagnon; Audrey Beyly-Adriano; Sunghoon Jang; Peng Gao; Byung-Ho Kang; Yonghua Li-Beisson; Youngsook Lee
Journal:  Proc Natl Acad Sci U S A       Date:  2020-08-31       Impact factor: 11.205

8.  SEIPIN Isoforms Interact with the Membrane-Tethering Protein VAP27-1 for Lipid Droplet Formation.

Authors:  Michael Scott Greer; Yingqi Cai; Satinder K Gidda; Nicolas Esnay; Franziska K Kretzschmar; Damien Seay; Elizabeth McClinchie; Till Ischebeck; Robert T Mullen; John M Dyer; Kent D Chapman
Journal:  Plant Cell       Date:  2020-07-20       Impact factor: 11.277

9.  Protein Quality Control and Lipid Droplet Metabolism.

Authors:  Melissa A Roberts; James A Olzmann
Journal:  Annu Rev Cell Dev Biol       Date:  2020-10-06       Impact factor: 13.827

Review 10.  Versatile control of the CDC48 segregase by the plant UBX-containing (PUX) proteins.

Authors:  Junrui Zhang; Alexandra I Vancea; Umar F Shahul Hameed; Stefan T Arold
Journal:  Comput Struct Biotechnol J       Date:  2021-05-14       Impact factor: 7.271
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