عنوان
پدید آورنده
موضوع
رده
کتابخانه
محل استقرار
NATIONAL BIBLIOGRAPHY NUMBER
Number
TL52142
LANGUAGE OF THE ITEM
.Language of Text, Soundtrack etc
انگلیسی
TITLE AND STATEMENT OF RESPONSIBILITY
Title Proper
Transcriptomics and Phenomics Analysis of High Ascorbate Arabidopsis Myo-Inositol Oxygenase Overexpressers
General Material Designation
[Thesis]
First Statement of Responsibility
Nepal, Nirman
Subsequent Statement of Responsibility
Lorence, Dr Argelia
.PUBLICATION, DISTRIBUTION, ETC
Name of Publisher, Distributor, etc.
Arkansas State University
Date of Publication, Distribution, etc.
2019
GENERAL NOTES
Text of Note
192 p.
DISSERTATION (THESIS) NOTE
Dissertation or thesis details and type of degree
Ph.D.
Body granting the degree
Arkansas State University
Text preceding or following the note
2019
SUMMARY OR ABSTRACT
Text of Note
Myo-inositol oxygenase (MIOX) is the first enzyme in the inositol route to ascorbate (L-ascorbic acid, AsA). Over-expression of MIOX in plants leads to elevated AsA content and enhanced growth rate, biomass accumulation, and tolerance to abiotic stresses. In this work, a combination of transcriptomics, phenomics, cell biology, LC-MS/MS, and physiological measurements were used to gain a better understanding of the molecular mechanisms underlying the phenotype of the MIOX lines. Transcriptomic analysis revealed increased expression of genes involved in auxin synthesis, auxin conjugation, hydrolysis, transport, and metabolism, supported by elevated auxin levels both in vitro and in vivo, and confirmed by assays demonstrating their effect on epidermal cell elongation in the MIOX over-expressers. Additionally, we detected up-regulation of transcripts involved in photosynthesis, increased photosystem II efficiency, and proton motive force. We found enhanced expression of amylase leading to higher intracellular glucose levels. Multiple gene families conferring plants tolerance/expressed in response to salt, cold, and heat stresses were also elevated in the MIOXline. These results indicate that elevated levels of auxin and glucose and enhanced photosynthetic efficiency in combination with up-regulation of abiotic stresses response genes underly the higher growth rate and abiotic stresses tolerance phenotype of the MIOX line. AVP1-1 (H+-pyrophosphatase) and MIOX are proteins that when over-expressed individually lead to plants with enhanced growth and abiotic stress tolerance. In this work, MIOX and AVP1-1 reciprocal crosses were developed, and phenomic approaches were used to investigate the possible synergy between these genes. Under normal and abiotic stress conditions the crosses had higher foliar AsA content. The crosses displayed enhanced growth rate and biomass accumulation compared to parent lines and wild type grown under water limitation. This phenotype may be explained by enhanced photosystem II efficiency, increased linear electron flow, and higher relative chlorophyll content. Additionally, the crosses preserved more water compared to controls when subjected to salt stress. The crosses also produced more seeds compared to controls grown under salt and water limitation stresses. Overall, these results indicate, combinatorial effect of the MIOX4 and AVP1 overexpression may be advantageous for crop improvement as this provides additional stress tolerance and enhanced seed yield compared to the use of individual traits.
UNCONTROLLED SUBJECT TERMS
Subject Term
Cellular biology
Subject Term
Molecular biology
Subject Term
Plant sciences
PERSONAL NAME - PRIMARY RESPONSIBILITY
Nepal, Nirman
PERSONAL NAME - SECONDARY RESPONSIBILITY
Lorence, Dr Argelia
CORPORATE BODY NAME - SECONDARY RESPONSIBILITY
Arkansas State University
ELECTRONIC LOCATION AND ACCESS
Electronic name
مطالعه متن کتاب p
[Thesis]
276903
a
Y
