Zusammenfassung
Unter Entwicklung verstehen wir allgemein die Veränderung des Organismus mit der Zeit. Mit Morphogenese bezeichnet man die dabei eintretenden Veränderungen der spezifischen Form (Gestalt, Struktur, Organisation), und damit auch der Funktionen des Organismus. Entwicklung lässt sich auf verschiedenen Ebenen der Integration lebendiger Systeme beobachten.
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Weiterführende Literatur
Baker A, Graham J (2002) Plant Peroxisomes. Kluwer, Dordrecht
Beech PL et al. (2000) Mitochondrial FtsZ in a chromophyte alga. Science 287: 1276–1279
Bolender N, Sickmann A, Wagner R, Meisinger C, Pfanner N (2008) Multiple pathways for sorting mitochondrial precursor proteins. EMBO Rep 9: 42–49
Braun H-P, Schmitz UK (1995) Are the ‘core’ proteins of the mitochondrial bc1 complex evolutionary relics of a processing protease? Trends Biochem Sci 20: 171–175
Chrispeels MJ (1991) Sorting of proteins in the secretory system. Annu Rev Plant Physiol Plant Mol Biol 42: 21–53
Cline K, Dabney-Smith C (2008) Plastid protein import and sorting: Different paths to the same compartments. Curr Opin Plant Biol 11: 585–592
Eckardt NA (2003) Dynamic trio: FtsZ, plastid-dividing and dynamin rings control plastid division. Plant Cell 15: 577–579
Gray JC et al. (2001) Stromules: Mobile protrusions and interconnections between plastids. Plant Biol 3: 223–233
Hanton SL, Matheson LA, Brandizzi F (2006) Seeking a way out: Export of proteins from the plant endoplasmatic reticulum. Trends Plant Sci 11: 335–343
Haucke V, Schatz G (1997) Import of proteins into mitochondria and chloroplasts. Trends Cell Biol. 7: 103–108
Hörmann F, Soll J, Bölter B (2007) The chloroplast protein import machinery: A review.Meth Mol Biol 390: 179–194
Igamberdiev AU, Lea PJ (2002) The role of peroxisomes in the integration of metabolism and evolutionary diversity of photosynthetic organisms. Phytochemistry 60: 651–674
López-Juez E (2007) Plastid biogenesis, between light and shadows. J Exp Bot 58: 11–26
Lübeck J, Heins L, Soll J (1997) Protein import into chloroplasts. Physiol Plant 100: 53–64
Maple J, Moeller SG (2005) An emerging picture of plastid division in higher plants. Planta 223: 1–4
Merkle T, Nagy F (1997) Nuclear import of proteins. Trends Plant Sci. 2: 458–464
Millar AH,Whelan J, Small I (2006) Recent surprises in protein targeting to mitochondria and plastids. Curr Opin Plant Biol 9: 610–615
Møller SG (ed) (2005) Plastids. Annu Plant Rev Vol 13, Blackwell, Oxford
Paris N, Stanley CM, Jones RL,Rogers JC (1996) Plant cells contains two functionally distinct vacuolar compartments. Cell 85: 563–572
Pracharoenwattana I, Smith SM (2008) When is a peroxisome not a peroxisome? Trends Plant Sci 13: 522–525
Schatz G, Dobberstein B (1996) Common principles of protein translocation across membranes. Science 271: 1519–1526
Schnell DJ, Blobel G (1997) A consensus nomenclature for the protein-import components of the chloroplast envelope. Trends Cell Biol 7: 303–304
Schopfer P, Apel K (1983) Intracellular photomorphogenesis. In: Shropshire W,Mohr H (eds) Encycl Plant Physiol NS,Vol XVI A. Springer, Berlin, pp 258–288
Stern DB,Hanson MR, Barkan A (2004) Genetics and genomics of chloroplast biogenesis. Trends Plant Sci 9: 293–301
Werhahn W,Niemeyer A, Jänsch L, Kruft V, Schmitz UK, Braun HP (2001) Purification and characterization of the preprotein translocase of the outer mitochondrial membrane from Arabidopsis thaliana: Identification of multiple forms of TOM20. Plant Physiol 125: 943–954
Whelan J, Glaser E (1997) Protein import into plant mitochondria. Plant Mol Biol 33: 771–789
In Abbildungen und Tabellen zitierte Literatur
Bajracharya D, Falk H, Schopfer P (1976) Planta 131: 252–261
Beckmann RP, Mizzen LA, Welch WJ (1990) Science 248: 850–854
Birky CW (1976) Bioscience 26: 26–33
Grohmann L, Rasmusson AG, Heiser V, Thieck O, Brennicke A (1996)
Lübeck J, Heins L, Soll J (1997) Physiol Plant 100: 53–64
Mohr H (1977) Endeavour, New Series 1: 107–114
Ohashi K, Tanaka A, Tsuji H (1989) Plant Physiol 91: 409–414
Perara E, Lingappa VR (1988) In: Das RC, Robbins PW (eds) Protein transfer and organelle biogenesis. Academic Press, San Diego, pp 3–47
Schatz G, Dobberstein B (1996) Science 271: 1519–1526
Schopfer P, Apel K (1983) Encycl Plant Physiol NS, Vol XVI A, Springer, Berlin pp 258–288
Schopfer P, Bajracharya D, Falk H, Thien W (1975) Ber Deutsch Bot Ges 88: 245–268
Schopfer P, Bajracharya D, Bergfeld R, Falk H (1976) Planta 133: 73–80
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Schopfer, P., Brennicke, A. (2010). Intrazelluläre Proteinverteilung und Entwicklung der Organellen. In: Pflanzenphysiologie. Springer Spektrum, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-49880-4_7
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