Biochemical properties and pigment contents of Satureja genotypes affected by plant growth regulators and temperature stress

There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (p...

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Published in	3 Biotech Vol. 14; no. 6; p. 159
Main Authors	Bakhshian, Mohammad, Naderi, Mohammad Reza, Javanmard, Hamid Reza, Bahreininejad, Babak
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.06.2024 Springer Nature B.V
Subjects	Agriculture Amino acids Ascorbic acid Biochemistry Bioinformatics Biomaterials Biotechnology Cancer Research Carotenoids Catalase Chemistry Chemistry and Materials Science Fertilization Genotypes Gibberellic acid Growth regulators Guaiacol L-Ascorbate peroxidase Leaves Original Article PD-1 protein Peroxidase Pigments Plant growth Plants (botany) Satureja Stem Cells Guaiacol peroxidase Amino acid Gibberellic acid Catalase Fertilization Ascorbate peroxidase
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Abstract	There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (planting dates, 8th of April, May and June) (main factor), and the factorial combination of plant growth regulators (PGR, control (CO), gibberellic acid (GA), fertilization (MI), and amino acid (A)), and genotypes (Khuzestani, Mutika, and Bakhtiari) on plant biochemical properties, was conducted. Plant pigment contents (chlorophyll a, and b and carotenoids (car)), antioxidant activity (catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (GP)), and leaf protein were determined. Treatments significantly and differently affected the genotypes performance. PD3 and PD1resulted in significantly higher activity of APX (0.059 U. mg −1 ) and GP (0.190 U. mg −1 ), respectively ( P ≤ 0.05). Temperature stress significantly affected plant CAT activity (U. mg −1 ) at PD1 (0.084) and PD3 (0.820). Higher temperature significantly enhanced leaf Pro, MI increased plant APX (0.054) and CAT activities (0.111 U. mg −1 ) significantly, and GA resulted in the highest and significantly different GP activity (0.186 U. mL −1 ). Treatments T1 and T3 significantly enhanced Chla and Car content, and MI resulted in significantly higher Chlb content (0.085 mg g −1 leaf fresh weight). Car and CAT are the two most sensitive biochemical traits under temperature stress and can more effectively regulate Satureja growth and activity. It is possible to alleviate temperature stress on Satureja biochemical properties by the tested PGR.
AbstractList	There is little data, to our knowledge, on the biochemical properties of different sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (planting dates, 8th of April, May and June) (main factor), and the factorial combination of plant growth regulators (PGR, control (CO), gibberellic acid (GA), fertilization (MI), and amino acid (A)), and genotypes (Khuzestani, Mutika, and Bakhtiari) on plant biochemical properties, was conducted. Plant pigment contents (chlorophyll a, and b and carotenoids (car)), antioxidant activity (catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (GP)), and leaf protein were determined. Treatments significantly and differently affected the genotypes performance. PD3 and PD1resulted in significantly higher activity of APX (0.059 U. mg ) and GP (0.190 U. mg ), respectively ( ≤ 0.05). Temperature stress significantly affected plant CAT activity (U. mg ) at PD1 (0.084) and PD3 (0.820). Higher temperature significantly enhanced leaf Pro, MI increased plant APX (0.054) and CAT activities (0.111 U. mg ) significantly, and GA resulted in the highest and significantly different GP activity (0.186 U. mL ). Treatments T1 and T3 significantly enhanced Chla and Car content, and MI resulted in significantly higher Chlb content (0.085 mg g leaf fresh weight). Car and CAT are the two most sensitive biochemical traits under temperature stress and can more effectively regulate growth and activity. It is possible to alleviate temperature stress on biochemical properties by the tested PGR. There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (planting dates, 8th of April, May and June) (main factor), and the factorial combination of plant growth regulators (PGR, control (CO), gibberellic acid (GA), fertilization (MI), and amino acid (A)), and genotypes (Khuzestani, Mutika, and Bakhtiari) on plant biochemical properties, was conducted. Plant pigment contents (chlorophyll a, and b and carotenoids (car)), antioxidant activity (catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (GP)), and leaf protein were determined. Treatments significantly and differently affected the genotypes performance. PD3 and PD1resulted in significantly higher activity of APX (0.059 U. mg−1) and GP (0.190 U. mg−1), respectively (P ≤ 0.05). Temperature stress significantly affected plant CAT activity (U. mg−1) at PD1 (0.084) and PD3 (0.820). Higher temperature significantly enhanced leaf Pro, MI increased plant APX (0.054) and CAT activities (0.111 U. mg−1) significantly, and GA resulted in the highest and significantly different GP activity (0.186 U. mL−1). Treatments T1 and T3 significantly enhanced Chla and Car content, and MI resulted in significantly higher Chlb content (0.085 mg g−1 leaf fresh weight). Car and CAT are the two most sensitive biochemical traits under temperature stress and can more effectively regulate Satureja growth and activity. It is possible to alleviate temperature stress on Satureja biochemical properties by the tested PGR. There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (planting dates, 8th of April, May and June) (main factor), and the factorial combination of plant growth regulators (PGR, control (CO), gibberellic acid (GA), fertilization (MI), and amino acid (A)), and genotypes (Khuzestani, Mutika, and Bakhtiari) on plant biochemical properties, was conducted. Plant pigment contents (chlorophyll a, and b and carotenoids (car)), antioxidant activity (catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (GP)), and leaf protein were determined. Treatments significantly and differently affected the genotypes performance. PD3 and PD1resulted in significantly higher activity of APX (0.059 U. mg −1 ) and GP (0.190 U. mg −1 ), respectively ( P ≤ 0.05). Temperature stress significantly affected plant CAT activity (U. mg −1 ) at PD1 (0.084) and PD3 (0.820). Higher temperature significantly enhanced leaf Pro, MI increased plant APX (0.054) and CAT activities (0.111 U. mg −1 ) significantly, and GA resulted in the highest and significantly different GP activity (0.186 U. mL −1 ). Treatments T1 and T3 significantly enhanced Chla and Car content, and MI resulted in significantly higher Chlb content (0.085 mg g −1 leaf fresh weight). Car and CAT are the two most sensitive biochemical traits under temperature stress and can more effectively regulate Satureja growth and activity. It is possible to alleviate temperature stress on Satureja biochemical properties by the tested PGR. There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (planting dates, 8th of April, May and June) (main factor), and the factorial combination of plant growth regulators (PGR, control (CO), gibberellic acid (GA), fertilization (MI), and amino acid (A)), and genotypes (Khuzestani, Mutika, and Bakhtiari) on plant biochemical properties, was conducted. Plant pigment contents (chlorophyll a, and b and carotenoids (car)), antioxidant activity (catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (GP)), and leaf protein were determined. Treatments significantly and differently affected the genotypes performance. PD3 and PD1resulted in significantly higher activity of APX (0.059 U. mg-1) and GP (0.190 U. mg-1), respectively (P ≤ 0.05). Temperature stress significantly affected plant CAT activity (U. mg-1) at PD1 (0.084) and PD3 (0.820). Higher temperature significantly enhanced leaf Pro, MI increased plant APX (0.054) and CAT activities (0.111 U. mg-1) significantly, and GA resulted in the highest and significantly different GP activity (0.186 U. mL-1). Treatments T1 and T3 significantly enhanced Chla and Car content, and MI resulted in significantly higher Chlb content (0.085 mg g-1 leaf fresh weight). Car and CAT are the two most sensitive biochemical traits under temperature stress and can more effectively regulate Satureja growth and activity. It is possible to alleviate temperature stress on Satureja biochemical properties by the tested PGR.There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under temperature stress. A split plot research on the basis of a complete randomized block design with three replicates examining temperature stress (planting dates, 8th of April, May and June) (main factor), and the factorial combination of plant growth regulators (PGR, control (CO), gibberellic acid (GA), fertilization (MI), and amino acid (A)), and genotypes (Khuzestani, Mutika, and Bakhtiari) on plant biochemical properties, was conducted. Plant pigment contents (chlorophyll a, and b and carotenoids (car)), antioxidant activity (catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (GP)), and leaf protein were determined. Treatments significantly and differently affected the genotypes performance. PD3 and PD1resulted in significantly higher activity of APX (0.059 U. mg-1) and GP (0.190 U. mg-1), respectively (P ≤ 0.05). Temperature stress significantly affected plant CAT activity (U. mg-1) at PD1 (0.084) and PD3 (0.820). Higher temperature significantly enhanced leaf Pro, MI increased plant APX (0.054) and CAT activities (0.111 U. mg-1) significantly, and GA resulted in the highest and significantly different GP activity (0.186 U. mL-1). Treatments T1 and T3 significantly enhanced Chla and Car content, and MI resulted in significantly higher Chlb content (0.085 mg g-1 leaf fresh weight). Car and CAT are the two most sensitive biochemical traits under temperature stress and can more effectively regulate Satureja growth and activity. It is possible to alleviate temperature stress on Satureja biochemical properties by the tested PGR.
ArticleNumber	159
Author	Naderi, Mohammad Reza Javanmard, Hamid Reza Bahreininejad, Babak Bakhshian, Mohammad
Author_xml	– sequence: 1 givenname: Mohammad surname: Bakhshian fullname: Bakhshian, Mohammad organization: Department of Agronomy and Plant Breeding, Isfahan (Khorasgan) Branch, Islamic Azad University – sequence: 2 givenname: Mohammad Reza orcidid: 0000-0002-0160-4450 surname: Naderi fullname: Naderi, Mohammad Reza email: MNaderi@khuisf.ac.ir organization: Department of Agronomy and Plant Breeding, Isfahan (Khorasgan) Branch, Islamic Azad University – sequence: 3 givenname: Hamid Reza surname: Javanmard fullname: Javanmard, Hamid Reza organization: Department of Agronomy and Plant Breeding, Isfahan (Khorasgan) Branch, Islamic Azad University – sequence: 4 givenname: Babak surname: Bahreininejad fullname: Bahreininejad, Babak organization: Research Division of Natural Resources, Isfahan Agricultural and Natural Resources Research and Education Center, AREEO
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Keywords	Guaiacol peroxidase Amino acid Gibberellic acid Catalase Fertilization Ascorbate peroxidase
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Snippet	There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under... There is little data, to our knowledge, on the biochemical properties of different sp. genotypes affected by plant growth regulators (PGR) under temperature... There is little data, to our knowledge, on the biochemical properties of different Satureja sp. genotypes affected by plant growth regulators (PGR) under...
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SubjectTerms	Agriculture Amino acids Ascorbic acid Biochemistry Bioinformatics Biomaterials Biotechnology Cancer Research Carotenoids Catalase Chemistry Chemistry and Materials Science Fertilization Genotypes Gibberellic acid Growth regulators Guaiacol L-Ascorbate peroxidase Leaves Original Article PD-1 protein Peroxidase Pigments Plant growth Plants (botany) Satureja Stem Cells
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Title	Biochemical properties and pigment contents of Satureja genotypes affected by plant growth regulators and temperature stress
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