Proteomics

Dataset Information

0

Proteomic analysis of Mycoplasma hyopneumoniae virulent strain 232


ABSTRACT: The experiment consists of M.hyp 232 cultures digests analyzed on two mass specs, LTQ Velos Pro and LTQ FT Ultra LTQ Velos Pro: Six cell culture replicates of M.hyo 232 were hydrophobically separated using tree detergents: Digitonin, Tween, and SDS. Each francion, including the insoluble pellet, was trypsin digested and then cleaned using an SCX trap follwed by a RP trap to remove detergents. Each fraction was sepated using a Dionex U3000 splitless nanoflow system operating at 333 nl per minute using a gradient of 2% ACN to 50% ACN in 4 hours. Eluate was analyzed using an LTQ Velos Pro mass spectrometer with 20 MS/MS scans of the 20 most intense peaks from each MS scan. Dynamic exclusion was enable for 3 minutes for each m/z with a repeat count of 1. LTQ FT Ultra: Two cell pellets for high resolution analysis were lysed and trypsin digested. Digested peptides were dried, resuspended in 20 mM KH2PO4, 20% ACN, pH 3 (Buffer A) in 2.5 µL and transferred to low retention vials in preparation for separation using an Ultimate 3000 configured for 2D-LC. Each sample was loaded at 15 µl/min onto an SCX microtrap for the first dimension of separation, involving SCX steps of Buffer A + 0, 5, 10, 15, 20, 25, 30, 40, 50, 100, 250, 500, and 1000 mM KCl. For the second dimension of separation, each eluted salt step was desalted with an inline peptide microtrap with 2% ACN, 0.1% FA at 5 µl/min. Once desalted, the microtrap was switched into line with a fritless nano column (75µm x ~10cm) containing C18 media (5µ, 200 Å Magic, Michrom). Peptides were eluted using a gradient of 2% to 36% ACN, 0.1% FA at 350 nl/min over 60 min and electrospray ionized for analysis using an LTQ FT Ultra mass spectrometer. A survey scan m/z 350-1750 was acquired in the FT ICR cell (Resolution = 100,000 at m/z 400, with an accumulation target value of 1,000,000 ions). Up to the 6 most abundant ions (>3,000 counts) with charge states > +2 were sequentially isolated and fragmented within the linear ion trap using collisionally induced dissociation with an activation q = 0.25 and activation time of 30 ms at a target value of 30,000 ions. M/z ratios selected for MS/ MS were dynamically excluded for 30 seconds. Analysis: X!tandem searches were performed using the Mycoplasma hyopneumoniae strain 232 reference protein set from NCBI. The only difference between the searches for the LTQ Velos and LTQ FT was the precursor mass tolenance being set to +-1500ppm and +-24ppm respectively. Decoy searches were performed and the data filtered at e-value <= 0.01 with single peptide proteins discarded. These results are included in the submission as two tab-delimited text files.

INSTRUMENT(S): LTQ Orbitrap Velos, LTQ Velos, LTQ FT Ultra

ORGANISM(S): Mycoplasma Hyopneumoniae (strain 232)

TISSUE(S): Cell Suspension Culture

SUBMITTER: Ken Pendarvis  

LAB HEAD: Ken Pendarvis

PROVIDER: PXD000118 | Pride | 2018-01-10

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
1-1_Digitonin.raw Raw
1-1_Pellet.raw Raw
1-1_SDS.raw Raw
1-1_Tween.raw Raw
1-2_Digitonin.raw Raw
Items per page:
1 - 5 of 102
altmetric image

Publications

Proteogenomic mapping of Mycoplasma hyopneumoniae virulent strain 232.

Pendarvis Ken K   Padula Matthew P MP   Tacchi Jessica L JL   Petersen Andrew C AC   Djordjevic Steven P SP   Burgess Shane C SC   Minion F Chris FC  

BMC genomics 20140708


<h4>Background</h4>Mycoplasma hyopneumoniae causes respiratory disease in swine and contributes to the porcine respiratory disease complex, a major disease problem in the swine industry. The M. hyopneumoniae strain 232 genome is one of the smallest and best annotated microbial genomes, containing only 728 annotated genes and 691 known proteins. Standard protein databases for mass spectrometry only allow for the identification of known and predicted proteins, which if incorrect can limit our unde  ...[more]

Similar Datasets

2012-08-08 | PXD000014 | Pride
2023-06-05 | PXD042745 |
2013-07-09 | PRD000366 | Pride
2014-02-14 | PXD000354 | Pride
2015-04-27 | PXD000951 | Pride
2020-12-07 | PXD021939 | Pride
2016-07-19 | PXD000709 | Pride
2016-12-23 | PXD003578 | Pride
2010-05-07 | PRD000204 | Pride
2015-01-09 | PXD000033 | Pride