Wyniki wyszukiwania

1

The response of plant NAD kinase to abiotic stresses

100%

Slaski J. J., Zagdanska B., Maciejewska U.

Acta Biochimica Polonica

|

1993

|

tom 40

|

nr 2

2

Localization of enzymatic activities in pea root nodules under abiotic stress conditions

100%

Borucki W.

Polish Journal of Natural Sciences. Supplement

|

2003

|

tom 01

3

Artykuł dostępny w postaci pełnego tekstu - kliknij by otworzyć plik

Genetically modified poplars with improved abiotic stress resistance - recent accomplishments. A review

88%

Sozoniuk M., Kowalczyk K.

Agronomy Science

|

2022

|

tom 77

|

nr 3

4

The involvement of hydrogen peroxide in plant responses to stresses

88%

Kuzniak E., Urbanek H.

Acta Physiologiae Plantarum

|

2000

|

tom 22

|

nr 2

5

Transport of photoassimilates in plants under unfavourable environmental conditions

88%

Sowinski P.

Acta Physiologiae Plantarum

|

1999

|

tom 21

|

nr 1

Transport of photoassimilates linking functionally plant, as a whole system, is discussed as a target for different environmental stresses. Anatomical, physiological and biochemical aspects of phloem transport, phloem loading and unloading are taken into consideration. In the light of modern theoríes of assimilate transport some historical hypotheses are also shown, due to their input into the progress of transport science. The role of phloem unloading in plant acclimation to environment stress is not clear, however changes in source/sink ratio was often observed as the effect of stress. The blockage of sieve tubes found as the result of given stress may be of secondary importance. On the other hand, phloem loading process seems to be an important target for different environmental stresses.

6

Molecular insight into LSD1-dependent cell death regulation

75%

Wituszynska W., Van den Kelen K., Van Breusegem F., Karpinski S.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2013

|

tom 94

|

nr 2

7

Molecular mechanism of salicylic acid-induced abiotic stress tolerance in higher plants

75%

Kang G., Li G., Guo T.

Acta Physiologiae Plantarum

|

2014

|

tom 36

|

nr 09

Salicylic acid (SA), a key signaling molecule in higher plants, has been found to play a role in the response to a diverse range of phytopathogens and is essential for the establishment of both local and systemic-acquired resistance. Recent studies have indicated that SA also plays an important role in abiotic stress-induced signaling, and studies on SA-modulated abiotic tolerance have mainly focused on the antioxidant capacity of plants by altering the activity of anti-oxidative enzymes. However, little information is available about the molecular mechanisms of SA-induced abiotic stress tolerance. Here, we review recent progress toward characterizing the SA-regulated genes and proteins, the SA signaling pathway, the connections and differences between SA-induced tolerances to biotic and abiotic stresses, and the interaction of SA with other plant hormones under conditions of abiotic stress. The future prospects related to molecular tolerance of SA in response to abiotic stresses are also further summarized.

8

Antioxidant activity responses under freezing stress in two potato cultivars with different sensibility

75%

Mora-Herrera M., Martinez-Gutierrez R., Lopez-Delgado H.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2013

|

tom 94

|

nr 2

9

Integrating expression data and genomic sequences to investigate transcriptional regulation in barley in response to abiotic stress

75%

Delavari A., Zinati Z., Sazegari S., Tahmasebi A.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2021

|

tom 102

|

nr 1

10

Proteome responses to herbicidal stress in maize

75%

Tyczewska A., Bielinska I., Gracz J., Sikora M., Twardowski T.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2015

|

tom 96

|

nr 1

11

A transcriptionally active copia-like retroelement in Citrus limon

75%

De F. B., Wilson R. R., Argenziano C., Kafantaris I., Conicella C.

Cellular and Molecular Biology Letters

|

2009

|

tom 14

|

nr 2

289-304

The plant nuclear genome is largely composed of mobile DNA, which can rearrange genomes and other individual gene structure and also affect gene regulation through various promoted activities: transposition, insertion, excision, chromosome breakage, and ectopic recombination. Ty1-copia-like retrotransposon is a widespread class of transposable elements in the plant kingdom, representing a large part of the total DNA content. Here, a novel retrotransposon-like sequence was isolated and identified as the Ty1-copia-like reverse transcriptase domain (named here CLCoy1), based on the homology of known elements. Fluorescence in situ hybridization, revealed that CLCoy1 was mainly located in telomeric and sub-telomeric regions along the Citrus chromosomes. CLCoy1 composes 3.6% of the genome and, interestingly, while transposons are mostly specific to a species, this element was identified in other Citrus species such as Citrus aurantium, Fortunella margarita and Citrus paradisi, but undetected in Poncirus trifoliata. We also determined that wounding, salt and cell culture stress produced transcriptional activation of this novel retroelement in Citrus limon. The novel Ty1-copia-like element CLCoy1 may have played a major role in shaping genome structure and size during Citrus species evolution.

12

Screening and identification of abiotic stress-responsive efficient antifungal Pseudomonas spp. from rice rhizospheric soil

75%

Karnwal A.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2021

|

tom 102

|

nr 1

13

Responses of Deschampsia antarctica to abiotic stress factors

75%

Gielwanowska I.

Polish Journal of Natural Sciences. Supplement

|

2003

|

tom 01

14

Cellular and organospecific responses of plants to abiotic stress - involvement of hydrogen peroxide and nitric oxide

75%

Gwozdz E. A.

Polish Journal of Natural Sciences. Supplement

|

2003

|

tom 01

15

Abiotic stress-induced gene expression in Arabidopsis thaliana

75%

Ernst D., Heidenreich B., Sandermann H.

Biological Bulletin of Poznań. Supplement

|

1997

|

tom 34

16

PCR-generated fragments homologous to exon 4 of ACC-synthase gene from Petunia hybrida

75%

Jakubowicz M., Sulima P.

Biological Bulletin of Poznań. Supplement

|

1997

|

tom 34

17

Abiotic stress induced production of beta-carotene, allophycocyanin and total lipids in Spirulina sp.

63%

Hifney A. F., Issa A. A., Fawzy M. A.

Journal of Biology and Earth Sciences

|

2013

|

tom 03

|

nr 1

18

CRK5 as a convergence node between senescence and abiotic stress responses

63%

Burdniak P., Glow D., Rusaczonek A., Karpinski S.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2013

|

tom 94

|

nr 3

19

Identification and characterization of a PnRSH2 gene involved in the plant stress response mechanism homologues to the bacterial stringent response

63%

Prusinska J., Kukla I., Dabrowska G., Goc A.

Acta Physiologiae Plantarum

|

2007

|

tom 29

|

nr 1 Suppl.

20

GGT-assisted glutathione degradation is functional to apoplastic redox control and seed storage proteins accumulation

63%

Trentin A., Pivato M., Giaretta S., Fabrega-Prats M., Arrigoni G., Prasad D., Masi A.

BioTechnologia. Journal of Biotechnology Computational Biology and Bionanotechnology

|

2013

|

tom 94

|

nr 2

Ograniczanie wyników

The response of plant NAD kinase to abiotic stresses

Localization of enzymatic activities in pea root nodules under abiotic stress conditions

Genetically modified poplars with improved abiotic stress resistance - recent accomplishments. A review

The involvement of hydrogen peroxide in plant responses to stresses

Transport of photoassimilates in plants under unfavourable environmental conditions

Molecular insight into LSD1-dependent cell death regulation