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Proteomics of Plasma Membranes from Poplar Trees Reveals Tissue Distribution of Transporters, Receptors, and Proteins in Cell Wall Formation

Nilsson, Robert ; Bernfur, Katja LU ; Gustavsson, Niklas LU ; Bygdell, Joakim ; Wingsle, Gunnar and Larsson, Christer LU (2010) In Molecular & Cellular Proteomics 9(2). p.368-387
Abstract
By exploiting the abundant tissues available from Populus trees, 3-4 m high, we have been able to isolate plasma membranes of high purity from leaves, xylem, and cambium/phloem at a time (4 weeks after bud break) when photosynthesis in the leaves and wood formation in the xylem should have reached a steady state. More than 40% of the 956 proteins identified were found in the plasma membranes of all three tissues and may be classified as "housekeeping" proteins, a typical example being P-type H+-ATPases. Among the 213 proteins predicted to be integral membrane proteins, transporters constitute the largest class (41%) followed by receptors (14%) and proteins involved in cell wall and carbohydrate metabolism (8%) and membrane trafficking... (More)
By exploiting the abundant tissues available from Populus trees, 3-4 m high, we have been able to isolate plasma membranes of high purity from leaves, xylem, and cambium/phloem at a time (4 weeks after bud break) when photosynthesis in the leaves and wood formation in the xylem should have reached a steady state. More than 40% of the 956 proteins identified were found in the plasma membranes of all three tissues and may be classified as "housekeeping" proteins, a typical example being P-type H+-ATPases. Among the 213 proteins predicted to be integral membrane proteins, transporters constitute the largest class (41%) followed by receptors (14%) and proteins involved in cell wall and carbohydrate metabolism (8%) and membrane trafficking (8%). ATP-binding cassette transporters (all members of subfamilies B, C, and G) and receptor-like kinases (four subfamilies) were two of the largest protein families found, and the members of these two families showed pronounced tissue distribution. Leaf plasma membranes were characterized by a very high proportion of transporters, constituting almost half of the integral proteins. Proteins involved in cell wall synthesis (such as cellulose and sucrose synthases) and membrane trafficking were most abundant in xylem plasma membranes in agreement with the role of the xylem in wood formation. Twenty-five integral proteins and 83 soluble proteins were exclusively found in xylem plasma membranes, which identifies new candidates associated with cell wall synthesis and wood formation. Among the proteins uniquely found in xylem plasma membranes were most of the enzymes involved in lignin biosynthesis, which suggests that they may exist as a complex linked to the plasma membrane. Molecular & Cellular Proteomics 9:368-387, 2010. (Less)
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author
; ; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
Molecular & Cellular Proteomics
volume
9
issue
2
pages
368 - 387
publisher
American Society for Biochemistry and Molecular Biology
external identifiers
  • wos:000275506200014
  • scopus:76649093600
  • pmid:19955078
ISSN
1535-9484
DOI
10.1074/mcp.M900289-MCP200
language
English
LU publication?
yes
id
e5665854-57d2-4d38-b8fe-389d087bc5d2 (old id 1588293)
date added to LUP
2016-04-01 09:57:59
date last changed
2022-01-25 18:32:17
@article{e5665854-57d2-4d38-b8fe-389d087bc5d2,
  abstract     = {{By exploiting the abundant tissues available from Populus trees, 3-4 m high, we have been able to isolate plasma membranes of high purity from leaves, xylem, and cambium/phloem at a time (4 weeks after bud break) when photosynthesis in the leaves and wood formation in the xylem should have reached a steady state. More than 40% of the 956 proteins identified were found in the plasma membranes of all three tissues and may be classified as "housekeeping" proteins, a typical example being P-type H+-ATPases. Among the 213 proteins predicted to be integral membrane proteins, transporters constitute the largest class (41%) followed by receptors (14%) and proteins involved in cell wall and carbohydrate metabolism (8%) and membrane trafficking (8%). ATP-binding cassette transporters (all members of subfamilies B, C, and G) and receptor-like kinases (four subfamilies) were two of the largest protein families found, and the members of these two families showed pronounced tissue distribution. Leaf plasma membranes were characterized by a very high proportion of transporters, constituting almost half of the integral proteins. Proteins involved in cell wall synthesis (such as cellulose and sucrose synthases) and membrane trafficking were most abundant in xylem plasma membranes in agreement with the role of the xylem in wood formation. Twenty-five integral proteins and 83 soluble proteins were exclusively found in xylem plasma membranes, which identifies new candidates associated with cell wall synthesis and wood formation. Among the proteins uniquely found in xylem plasma membranes were most of the enzymes involved in lignin biosynthesis, which suggests that they may exist as a complex linked to the plasma membrane. Molecular & Cellular Proteomics 9:368-387, 2010.}},
  author       = {{Nilsson, Robert and Bernfur, Katja and Gustavsson, Niklas and Bygdell, Joakim and Wingsle, Gunnar and Larsson, Christer}},
  issn         = {{1535-9484}},
  language     = {{eng}},
  number       = {{2}},
  pages        = {{368--387}},
  publisher    = {{American Society for Biochemistry and Molecular Biology}},
  series       = {{Molecular & Cellular Proteomics}},
  title        = {{Proteomics of Plasma Membranes from Poplar Trees Reveals Tissue Distribution of Transporters, Receptors, and Proteins in Cell Wall Formation}},
  url          = {{http://dx.doi.org/10.1074/mcp.M900289-MCP200}},
  doi          = {{10.1074/mcp.M900289-MCP200}},
  volume       = {{9}},
  year         = {{2010}},
}