The role of sucrose-metabolizing enzymes in pear fruit that differ in sucrose accumulation

To clarify the cause of low sucrose accumulation in seedless `Crest Earl's' netted muskmelon [Cucumis melo L. (Reticulatus Group)] fruit induced by CPPU, the activity level of sucrose metabolizing enzymes was compared between seeded and seedless fruit. CPPU promoted growth of the ovary in both pollinated and nonpollinated flowers until 10 days after anthesis (DAA), and thereafter the growth rate of nonpollinated fruit was lower than in the controls. Sucrose accumulation of seedless fruit remained lower than in seeded fruit, but there was no difference in fructose and glucose content between seeded and seedless fruit. Acid invertase activity declined sharply 20 DAA in seeded and seedless fruit, and was hardly detectable at 35 DAA, when sucrose accumulation began. Neutral invertase (NI) activity in both seeded and seedless fruit decreased from 20 DAA until 35 DAA; thereafter, NI activity in seeded fruit remained relatively constant, with a small but insignificant increase in maturity. Sucrose synthase (SS-c: sucrose cleavage direction) activity in seeded fruit decreased from 20 to 30 DAA, and then increased as fruit matured, while SS-c activity in seedless fruit did not change during development. Sucrose phosphate synthase (SPS) activity in seeded fruit increased from 25 to 30 DAA and remained relatively constant until harvest. SPS activity in seedless fruit declined gradually from 30 to 45 DAA, then remained at a low level. Sucrose synthase (SS-s: sucrose synthesis direction) activity in seeded fruit increased rapidly after 30 DAA, concomitant with sucrose accumulation. In contrast, SS-s activity in seedless fruit increased only slightly after 30 DAA indicating levels of SS-s activity are closely related to sucrose accumulation in parthenocarpic seedless muskmelons. Chemical name used: [1-(2-chloro-4-pyridyl)-3-phenylurea] (CPPU).

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Variability in Activities of Sucrose Metabolizing Enzymes in Relation to Sucrose Accumulation Among Parents and Their Progenies of Sugarcane

Sugar Tech ◽

10.1007/s12355-011-0078-0 ◽

2011 ◽

Vol 13 (2) ◽

pp. 114-122 ◽

Cited By ~ 1

Author(s):

Suresh K. Batta ◽

Deeksha ◽

K. S. Thind ◽

Pritpal Singh ◽

S. K. Uppal

Keyword(s):

Sucrose Accumulation ◽

Metabolizing Enzymes ◽

Sucrose Metabolizing Enzymes

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STEROID HORMONE METABOLISM IN RESPONSIVE TISSUES IN VITRO

Acta Endocrinologica ◽

10.1530/acta.0.068s279 ◽

1971 ◽

Vol 68 (1_Suppl) ◽

pp. S279-S294 ◽

Cited By ~ 12

Author(s):

Paul Robel

Keyword(s):

Steroid Hormone ◽

Physiological Activity ◽

Physiological State ◽

Target Cells ◽

Target Tissue ◽

Hormone Metabolism ◽

Metabolizing Enzymes ◽

Relationship Of

ABSTRACT Of the information available on steroid hormone metabolism in responsive tissues, only that relating hormone metabolism to physiological activity is reviewed, i. e. metabolite activity in isolated in vitro systems, binding of metabolites to target tissue receptors, specific steroid hormone metabolizing enzymes and relationship of hormone metabolism to target organ physiological state. Further, evidence is presented in the androgen field, demonstrating 5α-reduced metabolites, formed inside the target cells, as active compounds. This has led to a consideration of testosterone as a »prehormone«. The possibility that similar events take place in tissues responding to progesterone is discussed. Finally, the role of hormone metabolism in the regulation of hormone availability and/or renewal in target cells is discussed. In this context, reference is made to the potential role of plasma binding proteins and cytosol receptors.

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Crystal structure of Arabidopsis thaliana neutral invertase 2

Acta Crystallographica Section F Structural Biology Communications ◽

10.1107/s2053230x2000179x ◽

2020 ◽

Vol 76 (3) ◽

pp. 152-157

Author(s):

Łukasz P. Tarkowski ◽

Vicky G. Tsirkone ◽

Evgenii M. Osipov ◽

Steven Beelen ◽

Willem Lammens ◽

...

Keyword(s):

Arabidopsis Thaliana ◽

Glycoside Hydrolase Family ◽

Plant Cell Walls ◽

Higher Plant ◽

Ph Optimum ◽

Metabolizing Enzymes ◽

Neutral Invertase ◽

Sucrose Metabolizing Enzymes ◽

Life On Earth ◽

Hydrolase Family

The metabolism of sucrose is of crucial importance for life on Earth. In plants, enzymes called invertases split sucrose into glucose and fructose, contributing to the regulation of metabolic fluxes. Invertases differ in their localization and pH optimum. Acidic invertases present in plant cell walls and vacuoles belong to glycoside hydrolase family 32 (GH32) and have an all-β structure. In contrast, neutral invertases are located in the cytosol and organelles such as chloroplasts and mitochondria. These poorly understood enzymes are classified into a separate GH100 family. Recent crystal structures of the closely related neutral invertases InvA and InvB from the cyanobacterium Anabaena revealed a predominantly α-helical fold with unique features compared with other sucrose-metabolizing enzymes. Here, a neutral invertase (AtNIN2) from the model plant Arabidopsis thaliana was heterologously expressed, purified and crystallized. As a result, the first neutral invertase structure from a higher plant has been obtained at 3.4 Å resolution. The hexameric AtNIN2 structure is highly similar to that of InvA, pointing to high evolutionary conservation of neutral invertases.

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Rhythmic growth and carbon allocation in Quercus robur. Sucrose metabolizing enzymes in leaves

Physiologia Plantarum ◽

10.1111/j.1399-3054.1996.tb00241.x ◽

1996 ◽

Vol 96 (4) ◽

pp. 667-673 ◽

Cited By ~ 11

Author(s):

B. Alaoui-Sosse ◽

S. Ricaud ◽

P. Barnola ◽

P. Dizengremel

Keyword(s):

Quercus Robur ◽

Carbon Allocation ◽

Metabolizing Enzymes ◽

Sucrose Metabolizing Enzymes ◽

Rhythmic Growth

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The Role of Genetic Data Analysis for Precision Therapy in Cancer

Advances in Medical Technologies and Clinical Practice - Diagnostic Applications of Health Intelligence and Surveillance Systems ◽

10.4018/978-1-7998-6527-8.ch006 ◽

2021 ◽

pp. 127-143

Author(s):

Sunishtha Singh Yadav ◽

Vandana Chauhan ◽

Vijeta Singh ◽

Svenja Kohler

Keyword(s):

Personalized Medicine ◽

Cancer Susceptibility ◽

Metabolizing Enzymes ◽

Specific Patient ◽

Genome Wide ◽

Radio Therapy ◽

Precision Therapy ◽

Drug Receptors ◽

Genetic Data Analysis

Cancer has been known as a devastating disease that takes thousands of lives every year. And since this is a heterogenous disease, standard treatments, like chemotherapy, radiation, and chemo-radio therapy, are effective in specific patient population subset only. Genetic differences play a very crucial role in defining cancer susceptibility and also in determining the drug's efficacy by affecting regulation, expression, and activity of drug metabolizing enzymes, drug transporters, and drug receptors. This genetic variability of the disease lends itself to the emerging field of precision or personalized medicine. There are some specific ways of acquiring data for precision or personalized medicine approach like genome wide association scan (GWAS). This is basically identification and scanning of biomarkers throughout the complete DNA/genome of several individuals to study any type of genetic variations which are linked with any form of cancer.

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Functional role of polyamines and polyamine-metabolizing enzymes during salinity, drought and cold stresses.

Plant adaptation to environmental change: significance of amino acids and their derivatives ◽

10.1079/9781780642734.0141 ◽

2014 ◽

pp. 141-156

Author(s):

R Aryadeep ◽

D Kaushik

Keyword(s):

Functional Role ◽

Metabolizing Enzymes

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Effect of GA3 and Gly Plant Growth Regulators on Productivity and Sugar Content of Sugarcane

Agriculture ◽

10.3390/agriculture9070136 ◽

2019 ◽

Vol 9 (7) ◽

pp. 136 ◽

Cited By ~ 2

Author(s):

Nguyen ◽

Dang ◽

Nguyen ◽

Tran ◽

Giang ◽

...

Keyword(s):

Plant Growth ◽

Plant Growth Regulators ◽

Growth Regulators ◽

Large Scale ◽

Sugar Content ◽

Sugar Accumulation ◽

Sucrose Accumulation ◽

Net Income ◽

Actual Yield

The use of plant growth regulators is one effective solution to improve sugarcane yields and sugar content in several countries. In this study, we examined the role of gibberellin acid (GA3) and glyphosate (Gly) plant growth regulators to determine the appropriate concentration of GA3 and Gly to increase the yield of sugarcane and sugar accumulation, respectively. The statistical results showed that GA3 was sprayed at 150 ppm to increment the actual yield by 19.94%; sucrose accumulation increased by 2.21%. With Gly treatment, although the yield decreased by 3.17%, sucrose accumulation increased by 11.27% compared to control trials. In this study, the combined concentration of 150 ppm of both GA3 and Gly gave the best results, for which sucrose accumulation increased from 2.21% to 10.74% and from 19.94% to 20.97% for actual yield. The results led to increased net income compared to the control. To address concerns about residues of plant growth regulators, residues of GA3 and Gly were evaluated after the sugarcane harvest using the HPLC and UV-vis methods, respectively. The analyzed results showed that their residues were lower than what is permitted in several countries. This showed the applicability of the study, on a large scale, to increase sucrose accumulation, productivity of sugarcane, and profit for farmers.

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New Tools for Conservation Biological Control: Testing Ant-Attracting Artificial Nectaries to Employ Ants as Plant Defenders

Insects ◽

10.3390/insects11020129 ◽

2020 ◽

Vol 11 (2) ◽

pp. 129

Author(s):

Enrico Schifani ◽

Cristina Castracani ◽

Daniele Giannetti ◽

Fiorenza Augusta Spotti ◽

Roberto Reggiani ◽

...

Keyword(s):

Biological Control ◽

Cydia Pomonella ◽

Crop Protection ◽

Codling Moth ◽

Conservation Biological Control ◽

Fruit Production ◽

Pear Fruit ◽

Pear Trees ◽

Venturia Pyrina

Knowledge of the role of ants in many agroecosystems is relatively scarce, and in temperate regions the possibility to exploit ants as biocontrol agents for crop protection is still largely unexplored. Drawing inspiration from mutualistic ant–plant relationships mediated by extrafloral nectaries (EFNs), we tested the use of artificial nectaries (ANs) in order to increase ant activity on pear trees and to evaluate the effects on the arthropods, plant health and fruit production. While EFNs secrete a complex solution mainly composed of sugars and amino acids, ANs were filled with water and sucrose only. The results suggest that ANs can be used as manipulative instruments to increase ant activity over long periods of time. High ant activity was significantly linked to lower incidence of the pathogen fungus Venturia pyrina (pear scab) on pear leaves, and of the presence of Cydia pomonella (codling moth) caterpillars on pear fruit production. These results further encourage exploring underrated possibilities in the development of new tools for conservation biological control (CBC).

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Tumoral Drug Metabolism: Overview and Its Implications for Cancer Therapy

Journal of Clinical Oncology ◽

10.1200/jco.2005.02.120 ◽

2005 ◽

Vol 23 (1) ◽

pp. 205-229 ◽

Cited By ~ 99

Author(s):

M. Michael ◽

M.M. Doherty

Keyword(s):

Cancer Therapy ◽

Drug Metabolism ◽

Large Scale ◽

New Technologies ◽

Drug Efficacy ◽

Metabolizing Enzymes ◽

Therapeutic Implications ◽

Firm Data ◽

The Individual

Drug-metabolizing enzymes (DME) in tumors are capable of biotransforming a variety of xenobiotics, including antineoplastics, resulting in either their activation or detoxification. Many studies have reported the presence of DME in tumors; however, heterogenous detection methodology and patient cohorts have not generated consistent, firm data. Nevertheless, various gene therapy approaches and oral prodrugs have been devised, taking advantage of tumoral DME. With the need to target and individualize anticancer therapies, tumoral processes such as drug metabolism must be considered as both a potential mechanism of resistance to therapy and a potential means of achieving optimal therapy. This review discusses cytotoxic drug metabolism by tumors, through addressing the classes of the individual DME, their relevant substrates, and their distribution in specific malignancies. The limitations of preclinical models relative to the clinical setting and lack of data on the changes of DME with disease progression and host response will be discussed. The therapeutic implications of tumoral drug metabolism will be addressed—in particular, the role of DME in predicting therapeutic response, the activation of prodrugs, and the potential for modulation of their activity for gain are considered, with relevant clinical examples. The contribution of tumoral drug metabolism to cancer therapy can only be truly ascertained through large-scale prospective studies and supported by new technologies for tumor sampling and genetic analysis such as microarrays. Only then can efforts be concentrated in the design of better prodrugs or combination therapy to improve drug efficacy and individualize therapy.

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