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Characterization of a cucumber [Cucumis sativus L.] somaclonal variant with paternal inheritance

100%

Malepszy S., Burza W., Smiech M.

Journal of Applied Genetics

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1996

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tom 37

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nr 1

Regeneration of cucumber plants from leaf explants resulted in a new species phenotype designated mosaic (msc). It is characterized by two types of spots on the leaves (zucchini-like and chlorophyllous) and has many altered morphological and physiological properties including slower growth, smaller organs, poorly germinating or empty seeds and a smaller number of flowers per node. In msc plants the shape of the first leaf is always altered, and in about 76% of the flowers the crown is reduced and distorted to a varying degree. Chloroplasts of the zucchini-like sectors are filled with large starch grains, and some of the embryos die at various stages of development. The msc phenotype is transmitted uniparentally only by the male plant and no segregation is observed in the F2 and subsequent generations. Possible mechanisms responsible for the msc phenotype and its transmission are discussed.

2

Triploids in cucumber: V. The effect of the homo- and heterozygous states on some traits of triploids grown in the field and under cover

100%

Sarreb D. A., Mackiewicz H. O., Malepszy S., Bolesta E.

Folia Horticulturae

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2000

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tom 12

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nr 1

3

Preliminary evidences to action of calmodulin on CuZn-iso-superoxide dismutases from cucumber cotyledons

100%

Chong K., Ting L., Yang C.

Acta Physiologiae Plantarum

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1993

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tom 15

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nr 1

4

Characterization of new genes expressed during cucumber somatic embryogenesis

100%

Wisniewska A., Filipecki M., Pietraszewska A., Malepszy S.

Polish Journal of Natural Sciences. Supplement

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2003

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tom 01

5

Effect of photoinhibition and chilling on chlorophyll luminescence of cucumber leaves

100%

Murkowski A.

Polish Journal of Natural Sciences. Supplement

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2003

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tom 01

6

The effect of sheltering plants on yield of cucumber and muskmelon

88%

Grudzien K., Gorecki R.

Vegetable Crops Research Bulletin

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2001

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tom 54

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nr 1

7

Usefulness of expanded clay as a substrate for greenhouse cucumber cultivation

88%

Pirog J.

Vegetable Crops Research Bulletin

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2001

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tom 54

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nr 1

8

The effect of starter bacterial culture on the quality of fermented cucumbers

88%

Elkner K., Smolinska U.

Vegetable Crops Research Bulletin

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2003

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tom 59

9

Chlorophyll fluorescence of cucumber fruits Aramis F1 as affected by storage conditions

88%

Kosson R.

Vegetable Crops Research Bulletin

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2001

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tom 54

|

nr 1

10

Characterization of the nitrate transporter in root plasma membranes of Cucumis sativus L.

88%

Klobus G., Jerzykiewicz J., Buczek J.

Acta Physiologiae Plantarum

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1998

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tom 20

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nr 3

Nitrate uptake in right-side out plasma membrane vesicles isolated from cucumber roots was characterized. Nitrate uptake into vesicles was driven by an artificially imposed pH gradient. The uptake was strongly inhibited by phenylglyoxal, an arginyl residue modificator. Only a slight repression of NO⁻₃ transport in vesicles was observed in the presence of NEM, a thiol group reagent. pCMBS, an other thiol reagent and DEPC, an effector of histidine residue, had no effect on the nitrate transport in plasma membranes. ATP-driven proton transport in vesicles was not significantly affected in the presence of both, phenylglyoxal and DEPC, whereas pCMBS and NEM abolished it almost completely. The possible role of the particular amino acids residues in the active nitrate transport is discussed. NO⁻₃ uptake into vesicles isolated from both, nitrate-induced and nitrate-depleted plant material was higher than that observed in the vesicles obtained from uninduced plants. Thus, isolated vesicles reflect the well-known in vivo response of intact plants on the exogenous nitrogen regime.

11

Evaluation of transgenic lines of cucumber [Cucumis sativus L.] with gene of thaumatin

88%

Gajc-Wolska J., Szwacka M., Malepszy S.

Vegetable Crops Research Bulletin

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2001

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tom 54

|

nr 2

12

Transgenic cucumber - a current state

75%

Yin Z., Plader W., Wisniewska A., Szwacka M., Malepszy S.

Folia Horticulturae

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2005

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tom 17

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nr 1

73-90

13

Antioxidative enzymes in cucumber cell suspension cultures acclimatized to salt stress - in vitro study

75%

Naliwajski M. R., Wielanek M., Sklodowska M.

Acta Physiologiae Plantarum

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2007

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tom 29

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nr 1 Suppl.

14

The complete structure of the cucumber [Cucumis sativus L.] chloroplast genome: its composition and comparative analysis

75%

Plader W., Yukawa Y., Sugiura M., Malepszy S.

Cellular and Molecular Biology Letters

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2007

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tom 12

|

nr 4

584-594

The complete nucleotide sequence of the cucumber (C. sativus L. var. Borszczagowski) chloroplast genome has been determined. The genome is composed of 155,293 bp containing a pair of inverted repeats of 25,191 bp, which are separated by two single-copy regions, a small 18,222-bp one and a large 86,688-bp one. The chloroplast genome of cucumber contains 130 known genes, including 89 protein-coding genes, 8 ribosomal RNA genes (4 rRNA species), and 37 tRNA genes (30 tRNA species), with 18 of them located in the inverted repeat region. Of these genes, 16 contain one intron, and two genes and one ycf contain 2 introns. Twenty-one small inversions that form stem-loop structures, ranging from 18 to 49 bp, have been identified. Eight of them show similarity to those of other species, while eight seem to be cucumber specific. Detailed comparisons of ycf2 and ycf15, and the overall structure to other chloroplast genomes were performed.

15

Effect of biofertilizers on yield and yield components of cucumber

75%

Isfahani F. M., Besharati H.

Journal of Biology and Earth Sciences

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2012

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tom 02

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nr 2

16

The water treated with low-frequency low-pressure glow plasma enhances the phytoavailability of selenium and promotes the growth of selenium-treated cucumber plants

75%

Hawrylak-Nowak B., Dresler S., Matraszek-Gawron R., Oszczeda Z., Pogorzelec M.

Acta Scientiarum Polonorum. Hortorum Cultus

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2018

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tom 17

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nr 4

For its specific physical and physicochemical properties, the water treated with low-frequency low-pressure glow plasma (GPTW) affects the growth of plants and enhances the phytoavalibility of selenium (Se) ions from the nutrient solution. The basic biometric and physiological parameters of cucumber and the uptake of Se ions applied as selenate (Na2SeO4) from the nutrient solution prepared using GPTW or distilled water (DW) were compared. In the presence of Se, the fresh weight (f.w.) of shoots of plants growing in waterdifferentiated nutrient solutions did not differ, whilst their dry weight (d.w.) and leaf area (LA) were higher in plants grown in the GPTW- than in DW-containing medium. The use of GPTW for preparation of the nutrient solution was associated with a substantial improvement of Se ions phytoavailability, compared to the regular growth medium based on DW. Despite the higher Se bioaccumulation in the GPTW- than in DW-based medium, the phytotoxicity of this element was not enhanced. GPTW-induced Se accumulation was remarkable and hence recommended for further study to understand the detailed mechanism GPTW action.

17

Isolation of two xyloglucan endotransglycosylase genes that are expressed during cucumber somatic embryogenesis

75%

Malinowski R., Wisniewska A., Filipecki M., Malepszy S.

Cellular and Molecular Biology Letters

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2002

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tom 07

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nr Suppl.

18

Ergonomic and work related aspects of the prone working position in vegetable production

75%

Kleisinger S.

Roczniki Akademii Rolniczej w Poznaniu. Ogrodnictwo

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2000

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tom 31

|

nr 2

19

Differences in the inheritance stability of kanamycin resistance between transgenic cucumbers [Cucumis sativus L.] containing two constructs

75%

Yin Z., Szwacka M., Malinowski R., Malepszy S.

Journal of Applied Genetics

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2004

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tom 45

|

nr 3

20

Cucumber transformation methods - the review

75%

Yin Z., Bartoszewski G., Szwacka M., Malepszy S.

Biotechnologia

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2005

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nr 1

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