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Changes in synthesis and localization of members of the 70-kDa class of heat-shock proteins accompany the induction of emhryogenesis in Brassica napus L. microspores (1995)

Cordewener, Jan H. G. ; Hause, Gerd ; Görgen, Elke ; [et al.]

Springer

Planta 196 (1995), S. 747-755

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ISSN: 1432-2048

Keywords: Brassica ; Embryogenesis ; Heat shock ; Microspore ; Pollen ; Rapeseed

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Elevation of the culture temperature to 32°C for approximately 8 h can irreversibly change the developmental fate of isolated Brassica napus microspores from pollen development to embryogenesis. This stress treatment was accompanied by de-novo synthesis of a number of heat-shock proteins (HSPs) of the 70-kDa class: HSP68 and HSP70. A detailed biochemical and cytological analysis was performed of the HSP68 and HSP70 isoforms. Eight HSP68 isoforms, one of which was induced three fold by the stress treatment, were detected on two-dimensional immunoblots. Immunocytochemistry revealed a co-distribution of HSP68 with DNA-containing organelles, presumably mitochondria. Six HSP70 isoforms were detected, one of which was induced six fold under embryogenic culture conditions. During normal pollen development, HSP70 was localized in the nucleoplasm during the S phase of the cell cycle, and predominantly in the cytoplasm during the remainder. Induction of embryogenic development in late unicellular microspores was accompanied by an intense anti-HSP70 labeling of the nucleoplasm during an elongated S phase. In early bicellular pollen the nucleus of the vegetative cell, which normally does not divide and never expresses HSP70, showed intense labeling of the nucleoplasm with anti-HSP70 after 8 h of culture under embryogenic conditions. These results demonstrate a strong correlation between the phase of the cell cycle, the nuclear localization of HSP70 and the induction of embryogenesis. As temperature stress alone is responsible for the induction of embryogenic development, and causes an altered pattern of cell division, there might be a direct involvement of HSP70 in this process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00197341

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Expression of the ribosome-inactivating protein JIP60 from barley in transgenic tobacco leads to an abnormal phenotype and alterations on the level of translation (1997)

Görschen, Eckart ; Dunaeva, Marina ; Hause, Bettina ; [et al.]

Springer

Planta 202 (1997), S. 470-478

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ISSN: 1432-2048

Keywords: Key words: Jasmonate-induced protein JIP60 ; Nicotiana ; Protein biosynthesis ; Ribosome-inactivating protein ; Transformation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract. In this paper we report the in-planta activity of the ribosome-inactivating protein JIP60, a 60-kDa jasmonate-induced protein from barley (Hordeum vulgare L.), in transgenic tobacco (Nicotiana tabacum L.) plants. All plants expressing the complete JIP60 cDNA under the control of the cauliflower mosaic virus (CaMV) 35S promoter exhibited conspicuous and similar phenotypic alterations, such as slower growth, shorter internodes, lanceolate leaves, reduced root development, and premature senescence of leaves. Microscopic inspection of developing leaves showed a loss of residual meristems and higher degree of vacuolation of mesophyll cells as compared to the wild type. When probed with an antiserum which was immunoreactive against both the N- and the C-terminal half of JIP60, a polypeptide with a molecular mass of about 30 kDa, most probably a processed JIP60 product, could be detected. Phenotypic alterations could be correlated with the differences in the detectable amount of the JIP60 mRNA and processed JIP60 protein. The protein biosynthesis of the transformants was characterized by an increased polysome/monosome ratio but a decreased in-vivo translation activity. These findings suggest that JIP60 perturbs the translation machinery in planta. An immunohistological analysis using the JIP60 antiserum indicated that the immunoreactive polypeptide(s) are located mainly in the nucleus of transgenic tobacco leaf cells and to a minor extent in the cytoplasm.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004250050151

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Changes in synthesis and localization of members of the 70-kDa class of heat-shock proteins accompany the induction of embryogenesis inBrassica napus L. microspores (1995)

Cordewener, Jan H. G. ; Hause, Gerd ; Görgen, Elke ; [et al.]

Springer

Planta 196 (1995), S. 747-755

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ISSN: 1432-2048

Keywords: Brassica ; Embryogenesis ; Heat shock ; Microspore ; Pollen ; Rapeseed

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Elevation of the culture temperature to 32°C for approximately 8 h can irreversibly change the developmental fate of isolatedBrassica napus microspores from pollen development to embryogenesis. This stress treatment was accompanied by de-novo synthesis of a number of heat-shock proteins (HSPs) of the 70-kDa class: HSP68 and HSP70. A detailed biochemical and cytological analysis was performed of the HSP68 and HSP70 isoforms. Eight HSP68 isoforms, one of which was induced three fold by the stress treatment, were detected on two-dimensional immunoblots. Immunocytochemistry revealed a co-distribution of HSP68 with DNA-containing organelles, presumably mitochondria. Six HSP70 isoforms were detected, one of which was induced six fold under embryogenic culture conditions. During normal pollen development, HSP70 was localized in the nucleoplasm during the S phase of the cell cycle, and predominantly in the cytoplasm during the remainder. Induction of embryogenic development in late unicellular microspores was accompanied by an intense anti-HSP70 labeling of the nucleoplasm during an elongated S phase. In early bicellular pollen the nucleus of the vegetative cell, which normally does not divide and never expresses HSP70, showed intense labeling of the nucleoplasm with anti-HSP70 after 8 h of culture under embryogenic conditions. These results demonstrate a strong correlation between the phase of the cell cycle, the nuclear localization of HSP70 and the induction of embryogenesis. As temperature stress alone is responsible for the induction of embryogenic development, and causes an altered pattern of cell division, there might be a direct involvement of HSP70 in this process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01106770

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Lipid-body lipoxygenase is expressed in cotyledons during germination prior to other lipoxygenase forms (1996)

Feussner, Ivo ; Hause, Bettina ; Nellen, Arndt ; [et al.]

Springer

Planta 198 (1996), S. 288-293

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ISSN: 1432-2048

Keywords: Cucumis ; Germination ; Lipid body (immunocytochemical staining) ; Lipoxygenase ; Protein synthesis (in vivo)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Lipid bodies are degraded during germination. Whereas some proteins, e.g. oleosins, are synthesized during the formation of lipid bodies of maturating seeds, a new set of proteins, including a specific form of lipoxygenase (LOX; EC 1.13.11.12), is detectable in lipid bodies during the stage of fat degradation in seed germination. In cotyledons of cucumber (Cucumis sativus L.) seedlings at day 4 of germination, the most conspicuous staining with anti-LOX antibodies was observed in the cytosol. At very early stages of germination, however, the LOX form present in large amounts and synthesized preferentially was the lipid-body LOX. This was demonstrated by immunocytochemical staining of cotyledons from 1-h and 24-h-old seedlings: the immunodecoration of sections of 24-h-old seedlings with anti-LOX antiserum showed label exclusively correlated with lipid bodies of around 3 μm in diameter. In accordance, the profile of LOX protein isolated from lipid bodies during various stages of germination showed a maximum at day 1. By measuring biosynthesis of the protein in vivo we demonstrated that the highest rates of synthesis of lipid-body LOX occurred at day 1 of germination. The early and selective appearance of a LOX form associated with lipid bodies at this stage of development is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00206255

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