Extensive developmental and metabolic alterations in cybrids Nicotiana tabacum (+ Hyoscyamus niger) are caused by complex nucleo‐cytoplasmic incompatibility

Summary The genetic basis of multiple phenotypic alterations was studied in cell‐engineered cybrids Nicotiana tabacum (+ Hyoscyamus niger) combining the nuclear genome of N. tabacum, plastome of H. niger and recombinant mitochondria. The plants possess a complex, maternally inheritable syndrome of n...

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Veröffentlicht in:The Plant journal : for cell and molecular biology 2001-03, Vol.25 (6), p.627-639
Hauptverfasser: Zubko, Mikhajlo K., Zubko, Elena I., Ruban, Alexander V., Adler, Klaus, Mock, Hans‐Peter, Misera, Simon, Gleba, Yuri YU, Grimm, Bernhard
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container_issue 6
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container_title The Plant journal : for cell and molecular biology
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creator Zubko, Mikhajlo K.
Zubko, Elena I.
Ruban, Alexander V.
Adler, Klaus
Mock, Hans‐Peter
Misera, Simon
Gleba, Yuri YU
Grimm, Bernhard
description Summary The genetic basis of multiple phenotypic alterations was studied in cell‐engineered cybrids Nicotiana tabacum (+ Hyoscyamus niger) combining the nuclear genome of N. tabacum, plastome of H. niger and recombinant mitochondria. The plants possess a complex, maternally inheritable syndrome of nucleo‐cytoplasmic incompatibility, severely affecting growth, metabolism and development. In vivo, the syndrome was manifested as: late germination of seeds; dramatic decrease of chlorophyll and carotenoids in cotyledons and leaves; altered morphology of cotyledons, leaves and flowers; and dwarfism. The leaf phenotype depended on light intensity. In ‘green flowers’ (an extreme phenotype), homeotic function B was downregulated. In vitro, the incompatibility syndrome was restricted to the pigment deficiency of cotyledons. Electron microscopy revealed perturbations in the differentiation of chloroplasts and palisade parenchyma cells in bleached leaves. The pigment deficiency accompanied by retarded growth is discussed as a result of plastome–genome incompatibility, whereas other features are likely to be due to nucleo‐mitochondrial incompatibilities.
doi_str_mv 10.1046/j.1365-313x.2001.00997.x
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The plants possess a complex, maternally inheritable syndrome of nucleo‐cytoplasmic incompatibility, severely affecting growth, metabolism and development. In vivo, the syndrome was manifested as: late germination of seeds; dramatic decrease of chlorophyll and carotenoids in cotyledons and leaves; altered morphology of cotyledons, leaves and flowers; and dwarfism. The leaf phenotype depended on light intensity. In ‘green flowers’ (an extreme phenotype), homeotic function B was downregulated. In vitro, the incompatibility syndrome was restricted to the pigment deficiency of cotyledons. Electron microscopy revealed perturbations in the differentiation of chloroplasts and palisade parenchyma cells in bleached leaves. 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The plants possess a complex, maternally inheritable syndrome of nucleo‐cytoplasmic incompatibility, severely affecting growth, metabolism and development. In vivo, the syndrome was manifested as: late germination of seeds; dramatic decrease of chlorophyll and carotenoids in cotyledons and leaves; altered morphology of cotyledons, leaves and flowers; and dwarfism. The leaf phenotype depended on light intensity. In ‘green flowers’ (an extreme phenotype), homeotic function B was downregulated. In vitro, the incompatibility syndrome was restricted to the pigment deficiency of cotyledons. Electron microscopy revealed perturbations in the differentiation of chloroplasts and palisade parenchyma cells in bleached leaves. The pigment deficiency accompanied by retarded growth is discussed as a result of plastome–genome incompatibility, whereas other features are likely to be due to nucleo‐mitochondrial incompatibilities.</description><subject>Agronomy. 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The plants possess a complex, maternally inheritable syndrome of nucleo‐cytoplasmic incompatibility, severely affecting growth, metabolism and development. In vivo, the syndrome was manifested as: late germination of seeds; dramatic decrease of chlorophyll and carotenoids in cotyledons and leaves; altered morphology of cotyledons, leaves and flowers; and dwarfism. The leaf phenotype depended on light intensity. In ‘green flowers’ (an extreme phenotype), homeotic function B was downregulated. In vitro, the incompatibility syndrome was restricted to the pigment deficiency of cotyledons. Electron microscopy revealed perturbations in the differentiation of chloroplasts and palisade parenchyma cells in bleached leaves. The pigment deficiency accompanied by retarded growth is discussed as a result of plastome–genome incompatibility, whereas other features are likely to be due to nucleo‐mitochondrial incompatibilities.</abstract><cop>Oxford, UK</cop><pub>Blackwell Science Ltd</pub><pmid>11319030</pmid><doi>10.1046/j.1365-313x.2001.00997.x</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects Agronomy. Soil science and plant productions
Biological and medical sciences
carotenoids
Cell Fusion
Cell Nucleus - genetics
Cell Nucleus - physiology
Chimera - genetics
Chimera - growth & development
Chimera - metabolism
chloroplast biogenesis
Chloroplasts - genetics
Chloroplasts - ultrastructure
Cotyledon - ultrastructure
cybrids
Cytoplasm - genetics
Cytoplasm - physiology
cytoplasmic homeosis model
DNA, Mitochondrial
DNA, Recombinant
Fundamental and applied biological sciences. Psychology
Genes, Homeobox
Genes, Plant
Genetic Engineering
Genetics and breeding of economic plants
Hyoscyamus
Hyoscyamus niger
Interspecific and intergeneric hybridization, introgressions
maternal inheritance
Nicotiana
Nicotiana - genetics
Nicotiana - physiology
Nicotiana tabacum
nucleo-cytoplasmic incompatibility
Phenotype
Pigments, Biological - analysis
Plant breeding: fundamental aspects and methodology
Plant Stems - genetics
Plant Stems - growth & development
Plants, Toxic
plastomes
Solanaceae - genetics
Solanaceae - physiology
title Extensive developmental and metabolic alterations in cybrids Nicotiana tabacum (+ Hyoscyamus niger) are caused by complex nucleo‐cytoplasmic incompatibility
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