Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform

Purpose: A number of proteome studies have been performed recently to identify pheromone-related protein expression and their molecular function using genetically modified rodents' urine. However, no such studies have used Indian commensal rodents; interestingly, in a previous investigation, we...

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Main Authors: Rajkumar, R, Prakash, S, Archunan, G, Sowdhamini, R
Format: Article in Journal/Newspaper
Language:unknown
Published: Bentham Science Publishers 2010
Subjects:
Molecular Biophysics Unit
Biochemistry
Indian
Rattus rattus
Online Access:http://eprints.iisc.ernet.in/29108/
http://www.ingentaconnect.com/content/ben/ppl/2010/00000017/00000004/art00008
id ftiiscindia:oai:eprints.iisc.ernet.in:29108
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spelling ftiiscindia:oai:eprints.iisc.ernet.in:29108 2023-05-15T18:05:44+02:00 Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform Rajkumar, R Prakash, S Archunan, G Sowdhamini, R 2010-04 http://eprints.iisc.ernet.in/29108/ http://www.ingentaconnect.com/content/ben/ppl/2010/00000017/00000004/art00008 unknown Bentham Science Publishers Rajkumar, R and Prakash, S and Archunan, G and Sowdhamini, R (2010) Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform. In: Protein and Peptide Letters, 17 (4). pp. 449-457. Molecular Biophysics Unit Biochemistry Journal Article PeerReviewed 2010 ftiiscindia 2014-09-27T17:52:34Z Purpose: A number of proteome studies have been performed recently to identify pheromone-related protein expression and their molecular function using genetically modified rodents' urine. However, no such studies have used Indian commensal rodents; interestingly, in a previous investigation, we confirmed the presence of volatile molecules in commensal rodents urine and these molecules seem to be actively involved in pheromonal communication. Therefore, the present study aims to identify the major urinary protein [MUP] present in commensal rat urine, which will help us to understand the protein's expression pattern and intrinsic properties among the rodents globally. Experimental Design: Initially, the total urinary proteins were separated by 1-D and 2-D electrophoresis and then subsequently analyzed by Matrix Assisted Laser Desorption Ionization-Time of Flight and Mass Spectrometer (MALDI-TOF/MS). Furthermore, they were then fragmented with the aid of a Tandem Mass Spectrometer (TOF/TOF) and the identified sequences aligned and confirmed using similarity with the deduced primary structures of members of the lipocalin superfamily.Results: The SDS-PAGE protein profiles showed distinct proteins with molecular masses of 15, 22.4, 25, 28, 42, 50, 55, 68, and 91 kDa. Of these proteins, the 22.4 kDa protein was considered to be target candidate. When 2D electrophoresis was carried out, about similar to 50 spots were detected with different masses and various pI ranges. The 22.4 kDa protein was found to have a pI of about 4.9. This 22.4 kDa protein spot was digested and subjected to mass spectrometry; it was identified as rat MUP. The fragmented peptides from the rat MUP at 935, 1026, 1192, and 1303 m/z were further fragmented with the aid of MS/MS and generated de novo sequence and this confirmed this protein to be the MUP present in the urine of commensal rats.Conclusion: The present investigation confirms the presence of MUP with a molecular mass of 22.4 kDa in the urine of commensal rats. This protein may be involved in the binding of volatile molecules and opens up a discussion about how volatile and non-volatile molecules in the commensal rats' urine may contribute chemo-communication. Article in Journal/Newspaper Rattus rattus Indian Institute of Science, Bangalore: ePrints@IIsc Indian
institution Open Polar
collection Indian Institute of Science, Bangalore: ePrints@IIsc
op_collection_id ftiiscindia
language unknown
topic Molecular Biophysics Unit
Biochemistry
spellingShingle Molecular Biophysics Unit
Biochemistry
Rajkumar, R
Prakash, S
Archunan, G
Sowdhamini, R
Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform
topic_facet Molecular Biophysics Unit
Biochemistry
description Purpose: A number of proteome studies have been performed recently to identify pheromone-related protein expression and their molecular function using genetically modified rodents' urine. However, no such studies have used Indian commensal rodents; interestingly, in a previous investigation, we confirmed the presence of volatile molecules in commensal rodents urine and these molecules seem to be actively involved in pheromonal communication. Therefore, the present study aims to identify the major urinary protein [MUP] present in commensal rat urine, which will help us to understand the protein's expression pattern and intrinsic properties among the rodents globally. Experimental Design: Initially, the total urinary proteins were separated by 1-D and 2-D electrophoresis and then subsequently analyzed by Matrix Assisted Laser Desorption Ionization-Time of Flight and Mass Spectrometer (MALDI-TOF/MS). Furthermore, they were then fragmented with the aid of a Tandem Mass Spectrometer (TOF/TOF) and the identified sequences aligned and confirmed using similarity with the deduced primary structures of members of the lipocalin superfamily.Results: The SDS-PAGE protein profiles showed distinct proteins with molecular masses of 15, 22.4, 25, 28, 42, 50, 55, 68, and 91 kDa. Of these proteins, the 22.4 kDa protein was considered to be target candidate. When 2D electrophoresis was carried out, about similar to 50 spots were detected with different masses and various pI ranges. The 22.4 kDa protein was found to have a pI of about 4.9. This 22.4 kDa protein spot was digested and subjected to mass spectrometry; it was identified as rat MUP. The fragmented peptides from the rat MUP at 935, 1026, 1192, and 1303 m/z were further fragmented with the aid of MS/MS and generated de novo sequence and this confirmed this protein to be the MUP present in the urine of commensal rats.Conclusion: The present investigation confirms the presence of MUP with a molecular mass of 22.4 kDa in the urine of commensal rats. This protein may be involved in the binding of volatile molecules and opens up a discussion about how volatile and non-volatile molecules in the commensal rats' urine may contribute chemo-communication.
format Article in Journal/Newspaper
author Rajkumar, R
Prakash, S
Archunan, G
Sowdhamini, R
author_facet Rajkumar, R
Prakash, S
Archunan, G
Sowdhamini, R
author_sort Rajkumar, R
title Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform
title_short Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform
title_full Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform
title_fullStr Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform
title_full_unstemmed Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform
title_sort primary structural documentation of the major urinary protein of the indian commensal rat (rattus rattus) using a proteomics platform
publisher Bentham Science Publishers
publishDate 2010
url http://eprints.iisc.ernet.in/29108/
http://www.ingentaconnect.com/content/ben/ppl/2010/00000017/00000004/art00008
geographic Indian
geographic_facet Indian
genre Rattus rattus
genre_facet Rattus rattus
op_relation Rajkumar, R and Prakash, S and Archunan, G and Sowdhamini, R (2010) Primary Structural Documentation of the Major Urinary Protein of the Indian Commensal Rat (Rattus rattus) Using a Proteomics Platform. In: Protein and Peptide Letters, 17 (4). pp. 449-457.
_version_ 1766177238855712768

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