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Original title:
Phytochelatine
Original subtitle:
Komplexierung von Metallen und Metalloiden; Untersuchungen zur Phytochelatin-Synthase
Translated title:
Phytochelatins
Translated subtitle:
Complexation of metals and metalloids; studies on the phytochelatin synthase
Author:
Schmöger, Marcus
Year:
2000
Document type:
Dissertation
Faculty/School:
Fakultät für Chemie
Advisor:
Grill, Erwin (Prof. Dr.)
Referee:
Grill, Erwin (Prof. Dr.); Gierl, Alfons (Prof. Dr.)
Format:
Text
Language:
de
Subject group:
BIO Biowissenschaften; CHE Chemie
Keywords:
Phytochelatin; Metallothionein Klasse III; Cadystin; Glutathion; Schwermetall; Entgiftung; Komplexierung; Gelfiltration; Massenspektrometrie; Phytochelatin-Metall-Komplex; Arsen; Blei; Cadmium; Quecksilber; Selen; Antimon; Bismut; Eisen; Kupfer; Zinn; Chrom; Molybdän; Cobalt; Vanadium; As; Pb; Cd; Hg; Se; Sb; Bi; Fe; Cu; Sn; Cr; Mo; Co; V; Phytochelatin-Synthase; gamma-Glutamylcysteine-Dipeptidyl-Transpeptidase; EC 2.3.2.15; Dimerisierung; Protein-Protein-Interaktion; Yeast-Two-Hybrid-System
Translated keywords:
phytochelatin; metallothionein class III; cadystin; glutathione; heavy metal; metalloid; plant; plant cell culture; cell culture; Rauvolfia serpentina; Arabidopsis thaliana; detoxification; complexation; gel filtration; mass spectrometry; phytochelatin-metal complex; arsenic; lead; cadmium; mercury; selenium; antimony; bismuth; iron; copper; tin; chromium; molybdenum; cobalt; vanadium; As; Pb; Cd; Hg; Se; Sb; Bi; Fe; Cu; Sn; Cr; Mo; Co; V; phytochelatin synthase; gamma-glutamylcysteine-dipeptidy...     »
Controlled terms:
Glutathionglutamylcysteinyltransferase ; Metall ; Komplexierung; Ackerschmalwand ; Nichtmetall
TUM classification:
BIO 485d ; CHE 820d
Abstract:
Phytochelatine sind die wichtigsten schwermetall-bindenden und schwermetall-entgiftenden Peptide bei Pflanzen. Die Bildung dieser Peptide als Reaktion auf die Zugabe verschiedener Metalle und Metalloide wurde an pflanzlichen Zellkulturen und an Keimlingen von Arabidopsis thaliana untersucht. Cadmium, Blei, Quecksilber, Kupfer, Zinn, Eisen, Chrom und Molybdän, Arsen, Antimon und Bismut induzierten in pflanzlichen Zellkulturen die Bildung von Phytochelatinen; Selen, Vanadium und Cobalt hingegen n...     »
Translated abstract:
Phytochelatins are the most important heavy metal binding and heavy metal detoxifying peptides in plants. The formation of these peptides upon addition of different metals and metalloids was studied in plant cell cultures and in seedlings of Arabidopsis thaliana. Cadmium, lead, mercury, copper, tin, iron, chromium and molybdenum, arsenic, antimony and bismuth induced the formation of phytochelatins in plant cell cultures; selenium, vanadium and cobalt did not, however. By gel filtration the exi...     »
Publication :
Universitätsbibliothek der TU München
WWW:
https://mediatum.ub.tum.de/?id=601131
Date of submission:
14.09.2000
Oral examination:
17.10.2000
File size:
2100537 bytes
Pages:
190
Urn (citeable URL):
https://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:91-diss2000101706102
Last change:
15.05.2007
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