Towards an Analysis of the Rice Mitochondrial Proteome (original) (raw)

Journal Article

,

1Plant Molecular Biology Group, School of Biomedical and Chemical Sciences, The University of Western Australia, Crawley 6009, Western Australia, Australia

Search for other works by this author on:

,

1Plant Molecular Biology Group, School of Biomedical and Chemical Sciences, The University of Western Australia, Crawley 6009, Western Australia, Australia

Search for other works by this author on:

,

1Plant Molecular Biology Group, School of Biomedical and Chemical Sciences, The University of Western Australia, Crawley 6009, Western Australia, Australia

Search for other works by this author on:

1Plant Molecular Biology Group, School of Biomedical and Chemical Sciences, The University of Western Australia, Crawley 6009, Western Australia, Australia

Search for other works by this author on:

Received:

09 December 2002

Revision received:

10 January 2003

Accepted:

03 February 2003

Cite

Joshua L. Heazlewood, Katharine A. Howell, James Whelan, A. Harvey Millar, Towards an Analysis of the Rice Mitochondrial Proteome, Plant Physiology, Volume 132, Issue 1, May 2003, Pages 230–242, https://doi.org/10.1104/pp.102.018986
Close

Navbar Search Filter Mobile Enter search term Search

Abstract

Purified rice (Oryza sativa) mitochondrial proteins have been arrayed by isoelectric focusing/polyacrylamide gel electrophoresis (PAGE), by blue-native (BN) PAGE, and by reverse-phase high-performance liquid chromatography (LC) separation (LC-mass spectrometry [MS]). From these protein arrays, we have identified a range of rice mitochondrial proteins, including hydrophilic/hydrophobic proteins (grand average of hydropathicity = −1.27 to +0.84), highly basic and acid proteins (isoelectric point = 4.0–12.5), and proteins over a large molecular mass range (6.7–252 kD), using proteomic approaches. BN PAGE provided a detailed picture of electron transport chain protein complexes. A total of 232 protein spots from isoelectric focusing/PAGE and BN PAGE separations were excised, trypsin digested, and analyzed by tandem MS (MS/MS). Using this dataset, 149 of the protein spots (the products of 91 nonredundant genes) were identified by searching translated rice open reading frames from genomic sequence and six-frame translated rice expressed sequence tags. Sequence comparison allowed us to assign functions to a subset of 85 proteins, including many of the major function categories expected for this organelle. A further six spots were matched to rice sequences for which no specific function has yet been determined. Complete digestion of mitochondrial proteins with trypsin yielded a peptide mixture that was analyzed directly by reverse-phase LC via organic solvent elution from a C-18 column (LC-MS). These data yielded 170 MS/MS spectra that matched 72 sequence entries from open reading frame and expressed sequence tag databases. Forty-five of these were obtained using LC-MS alone, whereas 28 proteins were identified by both LC-MS and gel-based separations. In total, 136 nonredundant rice proteins were identified, including a new set of 23 proteins of unknown function located in plant mitochondria. We also report the first direct identification, to our knowledge, of PPR (pentatricopeptide repeat) proteins in the plant mitochondrial proteome. This dataset provides the first extensive picture, to our knowledge, of mitochondrial functions in a model monocot plant.

Copyright © 2003 American Society of Plant Biologists

This article is published and distributed under the terms of the Oxford University Press, Standard Journals Publication Model (https://academic.oup.com/journals/pages/open\_access/funder\_policies/chorus/standard\_publication\_model)

You do not currently have access to this article.

Personal account

Get help with access

Institutional access

Access to content on Oxford Academic is often provided through institutional subscriptions and purchases. If you are a member of an institution with an active account, you may be able to access content in one of the following ways:

IP based access

Typically, access is provided across an institutional network to a range of IP addresses. This authentication occurs automatically, and it is not possible to sign out of an IP authenticated account.

Sign in through your institution

Choose this option to get remote access when outside your institution. Shibboleth/Open Athens technology is used to provide single sign-on between your institution’s website and Oxford Academic.

  1. Click Sign in through your institution.
  2. Select your institution from the list provided, which will take you to your institution's website to sign in.
  3. When on the institution site, please use the credentials provided by your institution. Do not use an Oxford Academic personal account.
  4. Following successful sign in, you will be returned to Oxford Academic.

If your institution is not listed or you cannot sign in to your institution’s website, please contact your librarian or administrator.

Sign in with a library card

Enter your library card number to sign in. If you cannot sign in, please contact your librarian.

Society Members

Society member access to a journal is achieved in one of the following ways:

Sign in through society site

Many societies offer single sign-on between the society website and Oxford Academic. If you see ‘Sign in through society site’ in the sign in pane within a journal:

  1. Click Sign in through society site.
  2. When on the society site, please use the credentials provided by that society. Do not use an Oxford Academic personal account.
  3. Following successful sign in, you will be returned to Oxford Academic.

If you do not have a society account or have forgotten your username or password, please contact your society.

Sign in using a personal account

Some societies use Oxford Academic personal accounts to provide access to their members. See below.

Personal account

A personal account can be used to get email alerts, save searches, purchase content, and activate subscriptions.

Some societies use Oxford Academic personal accounts to provide access to their members.

Viewing your signed in accounts

Click the account icon in the top right to:

Signed in but can't access content

Oxford Academic is home to a wide variety of products. The institutional subscription may not cover the content that you are trying to access. If you believe you should have access to that content, please contact your librarian.

Institutional account management

For librarians and administrators, your personal account also provides access to institutional account management. Here you will find options to view and activate subscriptions, manage institutional settings and access options, access usage statistics, and more.

Purchase

Short-term Access

To purchase short-term access, please sign in to your personal account above.

Don't already have a personal account? Register

Towards an Analysis of the Rice Mitochondrial Proteome

- 24 Hours access

EUR €38.00

GBP £33.00

USD $41.00

Rental

Read this now at DeepDyve

This article is also available for rental through DeepDyve.

Citations

Views

Altmetric

Metrics

Total Views 654

449 Pageviews

205 PDF Downloads

Since 2/1/2021

Month: Total Views:
February 2021 2
March 2021 11
April 2021 15
May 2021 15
June 2021 6
July 2021 15
August 2021 13
September 2021 6
October 2021 12
November 2021 16
December 2021 14
January 2022 7
February 2022 15
March 2022 20
April 2022 18
May 2022 21
June 2022 14
July 2022 17
August 2022 15
September 2022 8
October 2022 14
November 2022 6
December 2022 13
January 2023 12
February 2023 9
March 2023 26
April 2023 5
May 2023 8
June 2023 23
July 2023 12
August 2023 13
September 2023 12
October 2023 20
November 2023 10
December 2023 30
January 2024 17
February 2024 19
March 2024 8
April 2024 29
May 2024 28
June 2024 16
July 2024 18
August 2024 21
September 2024 9
October 2024 15
November 2024 1

Citations

143 Web of Science

×

Email alerts

Citing articles via

More from Oxford Academic