| scholarly article | Q13442814 |
| P50 | author | Richard Losick | Q2150107 |
| P2093 | author name string | Niels Bradshaw | |
| P2860 | cites work | Genetic aspects of bacterial endospore formation | Q24564182 |
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| Structure of the Phosphatase Domain of the Cell Fate Determinant SpoIIE from Bacillus subtilis | Q27675791 | ||
| Size-Distribution Analysis of Macromolecules by Sedimentation Velocity Ultracentrifugation and Lamm Equation Modeling | Q27860847 | ||
| PHLPP: a phosphatase that directly dephosphorylates Akt, promotes apoptosis, and suppresses tumor growth | Q28243336 | ||
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| Lack of a robust unfoldase activity confers a unique level of substrate specificity to the universal AAA protease FtsH. | Q34532423 | ||
| Novel spoIIE mutation that causes uncompartmentalized sigmaF activation in Bacillus subtilis | Q34687936 | ||
| A sporulation membrane protein tethers the pro-sigmaK processing enzyme to its inhibitor and dictates its subcellular localization | Q34873720 | ||
| Genome-scale quantitative characterization of bacterial protein localization dynamics throughout the cell cycle | Q35023318 | ||
| Proteolysis in Bacterial Regulatory Circuits | Q35564854 | ||
| SpoIIAB is an anti-sigma factor that binds to and inhibits transcription by regulatory protein sigma F from Bacillus subtilis | Q36168038 | ||
| Timing of spoII gene expression relative to septum formation during sporulation of Bacillus subtilis | Q36183180 | ||
| Where asymmetry in gene expression originates. | Q36207903 | ||
| Mechanisms of asymmetric cell division: Two Bs or not two Bs, that is the question | Q36749996 | ||
| A bacterial control circuit integrates polar localization and proteolysis of key regulatory proteins with a phospho-signaling cascade | Q36954911 | ||
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| Role of interactions between SpoIIAA and SpoIIAB in regulating cell-specific transcription factor sigma F of Bacillus subtilis. | Q38302859 | ||
| Characterization of a cell division gene from Bacillus subtilis that is required for vegetative and sporulation septum formation | Q38310675 | ||
| Requirement for the cell division protein DivIB in polar cell division and engulfment during sporulation in Bacillus subtilis | Q39111108 | ||
| The master regulator for entry into sporulation inBacillus subtilisbecomes a cell-specific transcription factor after asymmetric division | Q39895325 | ||
| Direct interaction between the cell division protein FtsZ and the cell differentiation protein SpoIIE. | Q40410779 | ||
| Prespore-specific gene expression in Bacillus subtilis is driven by sequestration of SpoIIE phosphatase to the prespore side of the asymmetric septum | Q40444059 | ||
| Molecular genetics of sporulation in Bacillus subtilis. | Q41291273 | ||
| Localisation of DivIVA by targeting to negatively curved membranes | Q41872458 | ||
| Peptide inhibitor of cytokinesis during sporulation in Bacillus subtilis | Q41886278 | ||
| The protein phosphatase 2C (PP2C) superfamily: detection of bacterial homologues. | Q42247167 | ||
| Activation of cell-specific transcription by a serine phosphatase at the site of asymmetric division | Q48069743 | ||
| The Spo0E phosphatase of Bacillus subtilis is a substrate of the FtsH metalloprotease. | Q51744063 | ||
| Bacterial polarity | Q51895168 | ||
| A threshold mechanism governing activation of the developmental regulatory protein sigma F in Bacillus subtilis. | Q52094429 | ||
| The cell differentiation protein SpoIIE contains a regulatory site that controls its phosphatase activity in response to asymmetric septation. | Q52116039 | ||
| Temporal and selective association of multiple sigma factors with RNA polymerase during sporulation in Bacillus subtilis. | Q52170991 | ||
| Establishment of cell type by compartmentalized activation of a transcription factor. | Q52235324 | ||
| σF, the first compartment-specific transcription factor of B. subtilis, is regulated by an anti-σ factor that is also a protein kinase | Q57990647 | ||
| Localization of protein implicated in establishment of cell type to sites of asymmetric division | Q71768401 | ||
| Localization of the sporulation protein SpoIIE in Bacillus subtilis is dependent upon the cell division protein FtsZ | Q73866630 | ||
| Asymmetric cell division in B. subtilis involves a spiral-like intermediate of the cytokinetic protein FtsZ | Q74083515 | ||
| The SpoIIE phosphatase, the sporulation septum and the establishment of forespore-specific transcription in Bacillus subtilis: a reassessment | Q77317130 | ||
| P407 | language of work or name | English | Q1860 |
| P577 | publication date | 2015-10-14 | |
| P1433 | published in | eLife | Q2000008 |
| P1476 | title | Asymmetric division triggers cell-specific gene expression through coupled capture and stabilization of a phosphatase | |
| P478 | volume | 4 |
| Q98169950 | A computational model of stem cell molecular mechanism to maintain tissue homeostasis |
| Q33788930 | A widespread family of serine/threonine protein phosphatases shares a common regulatory switch with proteasomal proteases. |
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| Q92218161 | From Root to Tips: Sporulation Evolution and Specialization in Bacillus subtilis and the Intestinal Pathogen Clostridioides difficile |
| Q38658749 | Functional Diversity of AAA+ Protease Complexes in Bacillus subtilis |
| Q39097684 | Geometric protein localization cues in bacterial cells |
| Q39028888 | Highly Signal-Responsive Gene Regulatory Network Governing Myxococcus Development |
| Q88793362 | Maturation of polycistronic mRNAs by the endoribonuclease RNase Y and its associated Y-complex in Bacillus subtilis |
| Q36328211 | Metal-dependent SpoIIE oligomerization stabilizes FtsZ during asymmetric division in Bacillus subtilis |
| Q36077660 | Morphogenic Protein RodZ Interacts with Sporulation Specific SpoIIE in Bacillus subtilis |
| Q97421923 | Single-molecule optical microscopy of protein dynamics and computational analysis of images to determine cell structure development in differentiating Bacillus subtilis |
| Q92575948 | ¡vIVA la DivIVA! |
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