Effects of Salt Stress on Ion Balance at Vegetative Stage in Rice (&lt;i&gt;Oryza sativa&lt;/i&gt; L.)

Azarin, Kirill; Алабушев, А. В.; Усатов, А. В.; Kostylev, P. I.; Kolokolova, Natalia S.; Усатова, О. А.

doi:10.3844/ojbsci.2016.76.81

Cited by 11 publications

(7 citation statements)

References 20 publications

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“…But selection on the provocative backgrounds of the needed recombinants is rather complicated. That is why it is necessary to brood the rice sorts with the high potential of the crop capacity and seeds quality using the modern instruments of biotechnology [13,14].…”

Section: Discussion Of the Results Of Researchmentioning

confidence: 99%

Assessment of Rice Sorts and Hybrids on the Salt Tolerance Using Laboratory Methods

Kostylev

Kudashkina

2016

EUREKA: Life Sciences

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The article presents the results of the analysis of salt tolerance in rice samples by the laboratory methods at a concentration of NaCl – 1,5 %. The plants were grown in an incubator at temperature 26 °C. After 15 days, we measured the length of roots and shoots; the germination of seeds was counted. For the analysis of hybrids sensitive to salt Krasnodar varieties Novator with lines IR 52713-2B-8-2B-1-2, IR 74099-3R-3-3, NSIC Rc 106 – donor locus salt tolerance Saltol, using markers RM 493 and RM 7075. 90 plants were selected from the F2 plants which are analyzed by PCR, and the results of DNA analysis identified 6 of them as salt tolerant samples homozygous for the desired locus. From their offspring was selected the promising form to create salt-tolerant rice sorts.

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Section: Discussion Of the Results Of Researchmentioning

confidence: 99%

Assessment of Rice Sorts and Hybrids on the Salt Tolerance Using Laboratory Methods

Kostylev

Kudashkina

2016

EUREKA: Life Sciences

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“…Combinations of histone variants and covalent modifications of histone tails, also including acetylation, methylation, phosphorylation, ubiquitination, biotinylation, or SUMOylation, resulted in changes in nucleosome structure. Assemble an integrated histone code that has been linked to gene expression regulation [106,123,124]. Depending on which lysine is methylated and how many methyl groups are added, the methylation process of lysine residues on histone H3 has been linked to transcription activation or repression [96,105,106].…”

Section: Abiotic Stress and Histone Modificationsmentioning

confidence: 99%

Techniques against Distinct Abiotic Stress of Rice

Prova¹,

Sultan²

2022

Advances in Plant Defense Mechanisms

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Plants cannot physically escape environmental stresses because they are sessile organisms, which can stunt their growth. As a result, plants have had to evolve distinct strategies to deal with abiotic stress. Indeed, responding to and eventually adapting to abiotic stress may be a driving force in speciation. Because of the complexity of stress, multiple sensors, rather than a single sensor, are more likely to be responsible for stress perception. Stress-induced gene issues can be divided into two categories: those involved in stress tolerance and those involved in signal transduction. Stress-tolerance genes help plants cope with stress in both short- and long-term responses. These can include the synthesis of chaperones and enzymes for osmolyte biosynthesis. And, as with cold stress, detoxification causes a change in the composition of membrane lipids. Gene products can also function as transcription regulators, controlling groups of stress-related genes, or as components in the production of regulatory molecules. It has been shown that multiple signaling pathways can be activated during stress, resulting in similar responses to different triggers.

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“…Menurut Kandil et al (2012) salinitas akan mengganggu panjang plumula dan panjang radikula sedangkan menurut Azarin et al (2016) dan Alam et al (2004), efek toksik salinitas dapat menurukan potensial air dan turgor sel sehingga terjadi penurunan perluasan jaringan sel radikula dan plumula dimana pada kosentrasi diatas 6000 ppm yang terakumulasi dapat mengganggu perkembangan panjang radikula dan plumula. Pada umumnya benih yang mendapat perlakuan konsentrasi NaCl tinggi, pembentukan dan pertumbuhan akarnya terhambat, akar menjadi kurus dan kecil.…”

Section: Pembahasanunclassified

Respon Perkecambahan Benih Jagung (Zea mays. L) Pada Kondisi Cekaman Garam

Amartani¹

2019

agrosainstek

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Perkecambahan merupakan tahap awal perkembangan suatu tanaman khususnya tanaman berbiji. Pengaruh salinitas selama fase perkecambahan dapat menyebabkan terhambatnya perkecambahan pada benih karena benih mengalami plasmolisis. Tujuan penelitian ini untuk mengetahui respon perkecambahan benih jagung pada kondisi cekaman garam. Penelitian disusun berdasarkan rancangan acak lengkap dengan 5 ulangan. Perlakuan adalah 0 ppm (Kontrol), 2000 ppm, 4000 ppm, 6000 ppm, 8000 ppm kemudian mengamati proses perkecambahan benih 14 hari setelah semai. Analisis data menggunakan uji F dan dilanjutkan dengan menggunakan uji Beda Nyata Jujur pada taraf 0,05. Hasil analisis data menunjukkan bahwa perlakuan cekaman garam dengan konsentrasi 4000 ppm berbeda tidak signifikan dengan perlakuan cekaman garam dengan konsentrasi 0 ppm

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Effects of Salt Stress on Ion Balance at Vegetative Stage in Rice (<i>Oryza sativa</i> L.)

Cited by 11 publications

References 20 publications

Assessment of Rice Sorts and Hybrids on the Salt Tolerance Using Laboratory Methods

Assessment of Rice Sorts and Hybrids on the Salt Tolerance Using Laboratory Methods

Techniques against Distinct Abiotic Stress of Rice

Respon Perkecambahan Benih Jagung (Zea mays. L) Pada Kondisi Cekaman Garam

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