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Literature DB >> 28363565

Zinc complexed chitosan/TPP nanoparticles: A promising micronutrient nanocarrier suited for foliar application.

Paresh Deshpande¹, Ashwin Dapkekar¹, Manoj D Oak², Kishore M Paknikar³, Jyutika M Rajwade⁴.

Abstract

Cultivation of cereals in zinc deficient soils leads to declined nutritional quality of grain. Zinc deficiency in humans is a consequence of consumption of micronutrient deficient cereals as staple food. To achieve an increase in zinc density in grain, we evaluated zinc complexed chitosan nanoparticles (Zn-CNP) as a potential 'nanocarrier' suited for foliar fertilization. Zn-CNP were synthesized using tri-polyphosphate as a cross-linker. Spherical Zn-CNP (diameter 250-300nm) were positively charged (zeta potential, +42.34mV) and contained ∼20mg Zn/g (w/w). Plant growth in zinc deficient sand media, followed by foliar application of Zn-CNP (twice-a-week, for 5 weeks) after anthesis resulted in 27 and 42% increase in grain zinc content of MACS 3125 and UC1114 (durum wheat cultivars) respectively. Translocation of zinc ions from foliar applied Zn-CNP into the leaf and seed tissue was demonstrated using zinquin and dithizone stains, respectively. The study indicates the suitability of chitosan-based nanocarriers in agronomic biofortification.

Entities: Chemical Disease Gene Species

Keywords: Agronomic biofortification; Chitosan nanocarriers; Wheat; Zinc (Zn)

Mesh：

Substances：

Year: 2017 PMID： 28363565 DOI： 10.1016/j.carbpol.2017.02.061

Source DB: PubMed Journal: Carbohydr Polym ISSN： 0144-8617 Impact factor: 9.381

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Cited

17 in total

1. Foliar application with nano-silicon reduced cadmium accumulation in grains by inhibiting cadmium translocation in rice plants.

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Journal: Nanomaterials (Basel) Date: 2017-12-08 Impact factor: 5.076

Review 3. Switching to nanonutrients for sustaining agroecosystems and environment: the challenges and benefits in moving up from ionic to particle feeding.

Authors: Ajay Kumar Bhardwaj; Geeta Arya; Raj Kumar; Lamy Hamed; Hadi Pirasteh-Anosheh; Poonam Jasrotia; Prem Lal Kashyap; Gyanendra Pratap Singh
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Review 4. Recent Trends in Nano-Fertilizers for Sustainable Agriculture under Climate Change for Global Food Security.

Authors: Krishan K Verma; Xiu-Peng Song; Abhishek Joshi; Dan-Dan Tian; Vishnu D Rajput; Munna Singh; Jaya Arora; Tatiana Minkina; Yang-Rui Li
Journal: Nanomaterials (Basel) Date: 2022-01-05 Impact factor: 5.076

Review 5. The Potential of Using Chitosan on Cereal Crops in the Face of Climate Change.

Authors: Joanna Kocięcka; Daniel Liberacki
Journal: Plants (Basel) Date: 2021-06-07

6. Nanocarrier-mediated foliar zinc fertilization influences expression of metal homeostasis related genes in flag leaves and enhances gluten content in durum wheat.

Authors: Paresh Deshpande; Ashwin Dapkekar; Manoj Oak; Kishore Paknikar; Jyutika Rajwade
Journal: PLoS One Date: 2018-01-17 Impact factor: 3.240

10. Transcriptional Regulation of Genes Involved in Zinc Uptake, Sequestration and Redistribution Following Foliar Zinc Application to Medicago sativa.

Authors: Alessio Cardini; Elisa Pellegrino; Philip J White; Barbara Mazzolai; Marco C Mascherpa; Laura Ercoli
Journal: Plants (Basel) Date: 2021-03-03

Zinc complexed chitosan/TPP nanoparticles: A promising micronutrient nanocarrier suited for foliar application.

1. Foliar application with nano-silicon reduced cadmium accumulation in grains by inhibiting cadmium translocation in rice plants.

2. Zinc-Modified Nanotransporter of Doxorubicin for Targeted Prostate Cancer Delivery.

Review 3. Switching to nanonutrients for sustaining agroecosystems and environment: the challenges and benefits in moving up from ionic to particle feeding.

Review 4. Recent Trends in Nano-Fertilizers for Sustainable Agriculture under Climate Change for Global Food Security.

Review 5. The Potential of Using Chitosan on Cereal Crops in the Face of Climate Change.

6. Nanocarrier-mediated foliar zinc fertilization influences expression of metal homeostasis related genes in flag leaves and enhances gluten content in durum wheat.

7. Zinc use efficiency is enhanced in wheat through nanofertilization.

8. An Interaction of Rhamnolipids with Cu²⁺ Ions.

Review 9. Chitosan-Based Agronanochemicals as a Sustainable Alternative in Crop Protection.

10. Transcriptional Regulation of Genes Involved in Zinc Uptake, Sequestration and Redistribution Following Foliar Zinc Application to Medicago sativa.

Zinc complexed chitosan/TPP nanoparticles: A promising micronutrient nanocarrier suited for foliar application.

1. Foliar application with nano-silicon reduced cadmium accumulation in grains by inhibiting cadmium translocation in rice plants.

2. Zinc-Modified Nanotransporter of Doxorubicin for Targeted Prostate Cancer Delivery.

Review 3. Switching to nanonutrients for sustaining agroecosystems and environment: the challenges and benefits in moving up from ionic to particle feeding.

Review 4. Recent Trends in Nano-Fertilizers for Sustainable Agriculture under Climate Change for Global Food Security.

Review 5. The Potential of Using Chitosan on Cereal Crops in the Face of Climate Change.

6. Nanocarrier-mediated foliar zinc fertilization influences expression of metal homeostasis related genes in flag leaves and enhances gluten content in durum wheat.

7. Zinc use efficiency is enhanced in wheat through nanofertilization.

8. An Interaction of Rhamnolipids with Cu2+ Ions.

Review 9. Chitosan-Based Agronanochemicals as a Sustainable Alternative in Crop Protection.

10. Transcriptional Regulation of Genes Involved in Zinc Uptake, Sequestration and Redistribution Following Foliar Zinc Application to Medicago sativa.

8. An Interaction of Rhamnolipids with Cu²⁺ Ions.