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Targeting, Maturation, and Evolution of Essential Proteins in the Plastid Envelope
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Hsu S-C, Inoue K (2009) Two evolutionary conserved essential β-barrel proteins in the chloroplast outer envelope membrane. BioScience Trends 3, 168-178
Shipman RL, Inoue K (2009) Suborganellar localization of plastidic type I signal peptidase 1 depends on chloroplast development. FEBS Letters 583, 938-942 Supplementary data
Hsu S-C, Patel R, Bedard J, Jarvis P, Inoue K (2008) Two distinct Omp85 paralogs in the chloroplast outer envelope membrane are essential for embryogenesis in Arabidopsis thaliana. Plant Signaling & Behavior 3, 1134-1135
Patel R, Hsu S-C, Bedard J, Inoue K, Jarvis P (2008) The Omp85-related chloroplast outer envelope protein, OEP80, is essential for viability in Arabidopsis. Plant Physiology 148, 235-245
Inoue K (2007) (Correction) The chloroplast outer envelope membrane: the edge of light and excitement. Journal of Integrative Plant Biology 49, 1100-1111
Tripp J, Inoue K, Keegstra K, Froehlich JE (2007) A novel Serine/Proline-rich domain in combination with a transmembrane domain is required for the insertion of AtTic40 into the inner envelope membrane of chloroplasts. The Plant Journal 52, 824-838
Baldwin AJ, Inoue K (2006) The most C-terminal tri-glycine segment within the polyglycine stretch of the pea Toc75 transit peptide plays a critical role for targeting the protein to the chloroplast outer envelope membrane. FEBS Journal 273, 1547-1555
Inoue K, Baldwin AJ*, Shipman RL*, Matsui K, Theg SM, Ohme-Takagi M (2005) Complete maturation of the plastid protein translocation channel requires a type I signal peptidase. The Journal of Cell Biology 171, 425-430 (*Equal contributions).. This paper was cited as one of papers "of special interest" by Adam et al. 2006 Current Opinion in Plant Biology 9:234-240)", and also "of outstanding interest" by Cline and Dabney-Smith 2008 Current Opinion in Plant Biology 11:585-592.
Inoue K, Potter D, Shipman RL, Perea JV, Theg SM (2005) Involvement of a type I signal peptidase in biogenesis of chloroplasts – Towards identification of the enzyme for maturation of the chloroplast protein translocation channel. In Photosynthesis: Fundamental Aspects to Global Perspectives, eds. van der Est A and Bruce D. (Allen Press, Lawrelnce, KS), pp.933-935
Reumann S, Inoue K, Keegstra K (2005) Evolution of the general protein import pathway of plastids. Molecular Membrane Biology 22, 73-86
Baldwin A, Wardle A, Patel R, Dudley P, Park SK, Twell D, Inoue K, Jarvis P (2005) A molecular-genetic study of the Arabidopsis Toc75 gene family. Plant Physiology 138, 715-733
Inoue K, Potter D (2004) The chloroplastic protein translocation channel Toc75 and its paralog OEP80 represent two distinct protein families and are targeted to the chloroplastic outer envelope by different mechanisms. The Plant Journal 39, 354-365
Inoue K, Keegstra K (2003) A polyglycine stretch is necessary for proper targeting of the protein translocation channel precursor to the outer envelope membrane of chloroplasts. The Plant Journal 34, 661-669
Dávila-Aponte JA, Inoue K, Keegstra K (2003) Two chloroplastic protein translocation components, Tic110 and Toc75, are conserved in different plastid types from multiple plant species. Plant Molecular Biology 51, 175-181
Inoue K, Demel R, de Kruijff B, Keegstra K (2001) The N-terminal portion of the preToc75 transit peptide interacts with membrane lipids and inhibits binding and import of precursor proteins into isolated chloroplasts. European Journal of Biochemistry 268, 4036-4043
2. Other Plastid Protein Import (2003-)
3. Plant Natural Products - Carotenoids, Phenylpropanoids, and Steroid Saponins (1995-)
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Last updated on November 3rd, 2009
Kentaro Inoue(C) 2009