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Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties

Most of the popular scion varieties of mango possess alternate/irregular bearing. There are many external and internal factors assigned, among them carbohydrate reserves, and nutrient content plays important roles in the floral induction process in many crop species. In addition to that rootstock ca...

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Autores principales: Vittal, Hatkari, Sharma, Nimisha, Dubey, Anil Kumar, Shivran, Mukesh, Singh, Sanjay Kumar, Meena, Mahesh Chand, Kumar, Nirmal, Sharma, Neha, Singh, Nisha, Pandey, Rakesh, Bollinedi, Haritha, Singh, Bikram Pratap, Sharma, Radha Mohan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10155985/
https://www.ncbi.nlm.nih.gov/pubmed/37134101
http://dx.doi.org/10.1371/journal.pone.0284910
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author Vittal, Hatkari
Sharma, Nimisha
Dubey, Anil Kumar
Shivran, Mukesh
Singh, Sanjay Kumar
Meena, Mahesh Chand
Kumar, Nirmal
Sharma, Neha
Singh, Nisha
Pandey, Rakesh
Bollinedi, Haritha
Singh, Bikram Pratap
Sharma, Radha Mohan
author_facet Vittal, Hatkari
Sharma, Nimisha
Dubey, Anil Kumar
Shivran, Mukesh
Singh, Sanjay Kumar
Meena, Mahesh Chand
Kumar, Nirmal
Sharma, Neha
Singh, Nisha
Pandey, Rakesh
Bollinedi, Haritha
Singh, Bikram Pratap
Sharma, Radha Mohan
author_sort Vittal, Hatkari
collection PubMed
description Most of the popular scion varieties of mango possess alternate/irregular bearing. There are many external and internal factors assigned, among them carbohydrate reserves, and nutrient content plays important roles in the floral induction process in many crop species. In addition to that rootstock can alter the carbohydrate reserve and nutrient acquisition of scion varieties in fruit crops. The present investigation was carried out to understand the effect of rootstocks on the physiochemical traits of leaf, and bud and nutrient content in regular and alternate bearing varieties of mango. The rootstock “Kurukkan” promoted starch content in leaves of both alternate bearing varieties ‘Dashehari’ (5.62 mg/g) and regular ‘Amrapali’ (5.49 mg/g) and encouraged higher protein content (6.71 mg/g) and C/N ratio (37.94) in buds of alternate bearing ‘Dashehari’. While Olour rootstock upregulated the reducing sugar in leaves of ‘Amrapali’ (43.56 mg/g) and promoted K (1.34%) and B (78.58 ppm) content in reproductive buds of ‘Dashehari’. Stomatal density in ‘Dashehari’ scion variety was found higher on Olour rootstock (700.40/mm 2), while the rootstock fails to modify stomatal density in the scion variety regular bearer ‘Amrapali’. Further, a total of 30 carbohydrate metabolism-specific primers were designed and validated in 15 scion/rootstock combinations. A total of 33 alleles were amplified among carbohydrate metabolism-specific markers, which varied from 2 to 3 alleles with a mean of 2.53 per locus. Maximum and minimum PIC value was found for NMSPS10, and NMTPS9 primers (0.58). Cluster analysis revealed that scion grafted on Kurukkan rootstock clustered together except ‘Pusa Arunima’ on Olour rootstock. Our analysis revealed that Fe is the key component that is commonly expressed in both leaf and bud. Although Stomatal density (SD) and Intercellular CO(2) Concentration (Ci) are more specific to leaf and Fe, B, and total sugar (TS) are abundant in buds. Based on the results it can be inferred that the physiochemical and nutrient responses of mango scion varieties are manipulated by the rootstock, hence, the scion-rootstock combination can be an important consideration in mango for selecting suitable rootstock for alternate/irregular bearer varieties.
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spelling pubmed-101559852023-05-04 Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties Vittal, Hatkari Sharma, Nimisha Dubey, Anil Kumar Shivran, Mukesh Singh, Sanjay Kumar Meena, Mahesh Chand Kumar, Nirmal Sharma, Neha Singh, Nisha Pandey, Rakesh Bollinedi, Haritha Singh, Bikram Pratap Sharma, Radha Mohan PLoS One Research Article Most of the popular scion varieties of mango possess alternate/irregular bearing. There are many external and internal factors assigned, among them carbohydrate reserves, and nutrient content plays important roles in the floral induction process in many crop species. In addition to that rootstock can alter the carbohydrate reserve and nutrient acquisition of scion varieties in fruit crops. The present investigation was carried out to understand the effect of rootstocks on the physiochemical traits of leaf, and bud and nutrient content in regular and alternate bearing varieties of mango. The rootstock “Kurukkan” promoted starch content in leaves of both alternate bearing varieties ‘Dashehari’ (5.62 mg/g) and regular ‘Amrapali’ (5.49 mg/g) and encouraged higher protein content (6.71 mg/g) and C/N ratio (37.94) in buds of alternate bearing ‘Dashehari’. While Olour rootstock upregulated the reducing sugar in leaves of ‘Amrapali’ (43.56 mg/g) and promoted K (1.34%) and B (78.58 ppm) content in reproductive buds of ‘Dashehari’. Stomatal density in ‘Dashehari’ scion variety was found higher on Olour rootstock (700.40/mm 2), while the rootstock fails to modify stomatal density in the scion variety regular bearer ‘Amrapali’. Further, a total of 30 carbohydrate metabolism-specific primers were designed and validated in 15 scion/rootstock combinations. A total of 33 alleles were amplified among carbohydrate metabolism-specific markers, which varied from 2 to 3 alleles with a mean of 2.53 per locus. Maximum and minimum PIC value was found for NMSPS10, and NMTPS9 primers (0.58). Cluster analysis revealed that scion grafted on Kurukkan rootstock clustered together except ‘Pusa Arunima’ on Olour rootstock. Our analysis revealed that Fe is the key component that is commonly expressed in both leaf and bud. Although Stomatal density (SD) and Intercellular CO(2) Concentration (Ci) are more specific to leaf and Fe, B, and total sugar (TS) are abundant in buds. Based on the results it can be inferred that the physiochemical and nutrient responses of mango scion varieties are manipulated by the rootstock, hence, the scion-rootstock combination can be an important consideration in mango for selecting suitable rootstock for alternate/irregular bearer varieties. Public Library of Science 2023-05-03 /pmc/articles/PMC10155985/ /pubmed/37134101 http://dx.doi.org/10.1371/journal.pone.0284910 Text en © 2023 Vittal et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Vittal, Hatkari
Sharma, Nimisha
Dubey, Anil Kumar
Shivran, Mukesh
Singh, Sanjay Kumar
Meena, Mahesh Chand
Kumar, Nirmal
Sharma, Neha
Singh, Nisha
Pandey, Rakesh
Bollinedi, Haritha
Singh, Bikram Pratap
Sharma, Radha Mohan
Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties
title Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties
title_full Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties
title_fullStr Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties
title_full_unstemmed Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties
title_short Rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (Mangifera indica L.) scion varieties
title_sort rootstock-mediated carbohydrate metabolism, nutrient contents, and physiological modifications in regular and alternate mango (mangifera indica l.) scion varieties
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10155985/
https://www.ncbi.nlm.nih.gov/pubmed/37134101
http://dx.doi.org/10.1371/journal.pone.0284910
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