Science behind biostimulant action of seaweed extract on growth and crop yield: insights into transcriptional changes in roots of maize treated with Kappaphycus alvarezii seaweed extract under soil moisture stressed conditions

Seaweed extracts have been reported to be effective crop biostimulants having low carbon foot print. However, the mechanism of their action on crops has remained elusive due to dearth of studies. Kappaphycus alvarezii seaweed extract (K-sap) has been found to increase the yield of several crops as w...

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Published in	Journal of applied phycology Vol. 32; no. 1; pp. 599 - 613
Main Authors	Kumar, Ranjeet, Trivedi, Khanjan, Anand, K. G. Vijay, Ghosh, Arup
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.02.2020 Springer Nature B.V
Subjects	Agricultural production Algae amino acid metabolism Amino acids antioxidant activity Antioxidants Auxins Biological activity Biomedical and Life Sciences Biostimulants carbon Cell walls Corn Crop yield Crops Deoxyribonucleic acid DNA Drought Drought resistance drought tolerance Ecology Freshwater & Marine Ecology Gene expression gene expression regulation Gene sequencing Genes Gibberellic acid Glutathione Glutathione transferase grain yield Growth high-throughput nucleotide sequencing hormone metabolism Hormones irrigation Kappaphycus alvarezii Life Sciences Lipid metabolism Lipids Mapping messenger RNA Metabolism Metals Moisture stress Nitrogen Nitrogen metabolism Nucleic acids Nucleotides Nutrient content Oxidoreductions peroxidases plant extracts Plant growth Plant Physiology Plant Sciences Ribonucleic acid RNA RNA sequencing root growth Roots Seaweeds seed development Soil Soil conditions soil drenching Soil moisture Soil stresses soil water Soils Starch Sucrose Sugar Transcription transcription (genetics) transcriptome Transport water stress Zea mays Seaweed extract Biostimulant Transcriptome analysis Drought
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Abstract	Seaweed extracts have been reported to be effective crop biostimulants having low carbon foot print. However, the mechanism of their action on crops has remained elusive due to dearth of studies. Kappaphycus alvarezii seaweed extract (K-sap) has been found to increase the yield of several crops as well as impart drought tolerance. Here, an attempt was made to get a global view of the transcriptome response of maize roots when subjected to soil drench application of K-sap under normally irrigated and drought conditions. mRNA were sequenced using high-throughput RNA sequencing employing Illumina platform and transcriptome mapping was carried out. K-sap applied plants under drought, when compared to its control, recorded several differentially expressed genes involved in RNA-, protein-, cell wall–, signaling-, transport-, stress-, development-, cell-, secondary metabolism–, hormone metabolism–, DNA-, lipid metabolism–, major and minor CHO metabolism–, redox-, metal handling–, amino acid metabolism–, nucleotide metabolism–, TCA-, and N metabolism–related pathways. Up-regulation was observed in the genes coding towards enhancement of root growth, gibberellic acid and auxin signaling, seed development, nitrogen metabolism, transport, and antioxidant activity like glutathione S -transferase and peroxidases. On the other hand, down-regulation of starch and sucrose degradation–related transcripts was apparent. These related well to our morphological observations on improved root growth, grain yield, and higher nutrient content of the roots under drought stress owing to application of K-sap. The study gives a comprehensive insight of several biological processes being modulated and opens up avenues for further targeted mechanistic studies.
AbstractList	Seaweed extracts have been reported to be effective crop biostimulants having low carbon foot print. However, the mechanism of their action on crops has remained elusive due to dearth of studies. Kappaphycus alvarezii seaweed extract (K-sap) has been found to increase the yield of several crops as well as impart drought tolerance. Here, an attempt was made to get a global view of the transcriptome response of maize roots when subjected to soil drench application of K-sap under normally irrigated and drought conditions. mRNA were sequenced using high-throughput RNA sequencing employing Illumina platform and transcriptome mapping was carried out. K-sap applied plants under drought, when compared to its control, recorded several differentially expressed genes involved in RNA-, protein-, cell wall–, signaling-, transport-, stress-, development-, cell-, secondary metabolism–, hormone metabolism–, DNA-, lipid metabolism–, major and minor CHO metabolism–, redox-, metal handling–, amino acid metabolism–, nucleotide metabolism–, TCA-, and N metabolism–related pathways. Up-regulation was observed in the genes coding towards enhancement of root growth, gibberellic acid and auxin signaling, seed development, nitrogen metabolism, transport, and antioxidant activity like glutathione S-transferase and peroxidases. On the other hand, down-regulation of starch and sucrose degradation–related transcripts was apparent. These related well to our morphological observations on improved root growth, grain yield, and higher nutrient content of the roots under drought stress owing to application of K-sap. The study gives a comprehensive insight of several biological processes being modulated and opens up avenues for further targeted mechanistic studies. Seaweed extracts have been reported to be effective crop biostimulants having low carbon foot print. However, the mechanism of their action on crops has remained elusive due to dearth of studies. Kappaphycus alvarezii seaweed extract (K-sap) has been found to increase the yield of several crops as well as impart drought tolerance. Here, an attempt was made to get a global view of the transcriptome response of maize roots when subjected to soil drench application of K-sap under normally irrigated and drought conditions. mRNA were sequenced using high-throughput RNA sequencing employing Illumina platform and transcriptome mapping was carried out. K-sap applied plants under drought, when compared to its control, recorded several differentially expressed genes involved in RNA-, protein-, cell wall–, signaling-, transport-, stress-, development-, cell-, secondary metabolism–, hormone metabolism–, DNA-, lipid metabolism–, major and minor CHO metabolism–, redox-, metal handling–, amino acid metabolism–, nucleotide metabolism–, TCA-, and N metabolism–related pathways. Up-regulation was observed in the genes coding towards enhancement of root growth, gibberellic acid and auxin signaling, seed development, nitrogen metabolism, transport, and antioxidant activity like glutathione S -transferase and peroxidases. On the other hand, down-regulation of starch and sucrose degradation–related transcripts was apparent. These related well to our morphological observations on improved root growth, grain yield, and higher nutrient content of the roots under drought stress owing to application of K-sap. The study gives a comprehensive insight of several biological processes being modulated and opens up avenues for further targeted mechanistic studies.
Author	Kumar, Ranjeet Anand, K. G. Vijay Trivedi, Khanjan Ghosh, Arup
Author_xml	– sequence: 1 givenname: Ranjeet surname: Kumar fullname: Kumar, Ranjeet organization: Academy of Scientific and Innovative Research (AcSIR), Applied Phycology and Biotechnology Division, CSIR—Central Salt & Marine Chemicals Research Institute, GB Marg – sequence: 2 givenname: Khanjan surname: Trivedi fullname: Trivedi, Khanjan organization: Applied Phycology and Biotechnology Division, CSIR—Central Salt & Marine Chemicals Research Institute, GB Marg – sequence: 3 givenname: K. G. Vijay surname: Anand fullname: Anand, K. G. Vijay organization: Applied Phycology and Biotechnology Division, CSIR—Central Salt & Marine Chemicals Research Institute, GB Marg – sequence: 4 givenname: Arup orcidid: 0000-0003-0656-6569 surname: Ghosh fullname: Ghosh, Arup email: arupghosh@csmcri.res.in organization: Academy of Scientific and Innovative Research (AcSIR), Applied Phycology and Biotechnology Division, CSIR—Central Salt & Marine Chemicals Research Institute, GB Marg
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Snippet	Seaweed extracts have been reported to be effective crop biostimulants having low carbon foot print. However, the mechanism of their action on crops has...
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SubjectTerms	Agricultural production Algae amino acid metabolism Amino acids antioxidant activity Antioxidants Auxins Biological activity Biomedical and Life Sciences Biostimulants carbon Cell walls Corn Crop yield Crops Deoxyribonucleic acid DNA Drought Drought resistance drought tolerance Ecology Freshwater & Marine Ecology Gene expression gene expression regulation Gene sequencing Genes Gibberellic acid Glutathione Glutathione transferase grain yield Growth high-throughput nucleotide sequencing hormone metabolism Hormones irrigation Kappaphycus alvarezii Life Sciences Lipid metabolism Lipids Mapping messenger RNA Metabolism Metals Moisture stress Nitrogen Nitrogen metabolism Nucleic acids Nucleotides Nutrient content Oxidoreductions peroxidases plant extracts Plant growth Plant Physiology Plant Sciences Ribonucleic acid RNA RNA sequencing root growth Roots Seaweeds seed development Soil Soil conditions soil drenching Soil moisture Soil stresses soil water Soils Starch Sucrose Sugar Transcription transcription (genetics) transcriptome Transport water stress Zea mays
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Title	Science behind biostimulant action of seaweed extract on growth and crop yield: insights into transcriptional changes in roots of maize treated with Kappaphycus alvarezii seaweed extract under soil moisture stressed conditions
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