TY - JOUR
T1 - Bacillus subtilis Spore Inner Membrane Proteome
AU - Zheng, L.
AU - Abhyankar, W.
AU - Ouwerling, N.
AU - Dekker, H.L.
AU - van Veen, H.
AU - van der Wel, N.N.
AU - Roseboom, W.
AU - de Koning, L.J.
AU - Brul, S.
AU - de Koster, C.G.
N1 - With supporting information
PY - 2016
Y1 - 2016
N2 - The endospore is the dormant form of Bacillus subtilis and many other Firmicutes. By sporulation, these spore formers can survive very harsh physical and chemical conditions. Yet, they need to go through germination to return to their growing form. The spore inner membrane (IM) has been shown to play an essential role in triggering the initiation of germination. In this study, we isolated the IM of bacterial spores, in parallel with the isolation of the membrane of vegetative cells. With the use of GeLC-MS/MS, over 900 proteins were identified from the B. subtilis spore IM preparations. By bioinformatics-based membrane protein predictions, ca. one-third could be predicted to be membrane-localized. A large number of unique proteins as well as proteins common to the two membrane proteomes were identified. In addition to previously known IM proteins, a number of IM proteins were newly identified, at least some of which are likely to provide new insights into IM physiology, unveiling proteins putatively involved in spore germination machinery and hence putative germination inhibition targets.
AB - The endospore is the dormant form of Bacillus subtilis and many other Firmicutes. By sporulation, these spore formers can survive very harsh physical and chemical conditions. Yet, they need to go through germination to return to their growing form. The spore inner membrane (IM) has been shown to play an essential role in triggering the initiation of germination. In this study, we isolated the IM of bacterial spores, in parallel with the isolation of the membrane of vegetative cells. With the use of GeLC-MS/MS, over 900 proteins were identified from the B. subtilis spore IM preparations. By bioinformatics-based membrane protein predictions, ca. one-third could be predicted to be membrane-localized. A large number of unique proteins as well as proteins common to the two membrane proteomes were identified. In addition to previously known IM proteins, a number of IM proteins were newly identified, at least some of which are likely to provide new insights into IM physiology, unveiling proteins putatively involved in spore germination machinery and hence putative germination inhibition targets.
UR - https://pure.uva.nl/ws/files/2777014/173669_Bacillus_subtilis_Spore_Inner_Membrane_Proteome_zip1.zip
UR - https://pure.uva.nl/ws/files/2777018/173670_Bacillus_subtilis_Spore_Inner_Membrane_Proteome_zip2.zip
UR - https://pure.uva.nl/ws/files/2777022/173671_Bacillus_subtilis_Spore_Inner_Membrane_Proteome_zip3.zip
UR - https://pure.uva.nl/ws/files/2777026/173672_Bacillus_subtilis_Spore_Inner_Membrane_Proteome_zip4.zip
UR - https://pure.uva.nl/ws/files/2777030/173673_Bacillus_subtilis_Spore_Inner_Membrane_Proteome_suppl._1.pdf
U2 - https://doi.org/10.1021/acs.jproteome.5b00976
DO - https://doi.org/10.1021/acs.jproteome.5b00976
M3 - Article
C2 - 26731423
SN - 1535-3893
VL - 15
SP - 585
EP - 594
JO - Journal of proteome research
JF - Journal of proteome research
IS - 2
ER -