Constitutive and Inducible Aerobic and Anaerobic Stress Proteins in the Echinochloa Complex and Rice

Mujer, Cesar V.; Rumpho, Mary E.; Lin, Jih-Jing; Kennedy, Robert A.

doi:10.1104/pp.101.1.217

Cited by 62 publications

(48 citation statements)

References 33 publications

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“…This shift in the pattern of protein synthesis has been observed in the roots of both monocotyledons (maize, Sachs et al [1980]; rice, Bertani et al [1981] and Mocquot et al [1981]; Echinochloa, Mujer et al [1993]) and dicotyledons (Arabidopsis, Dolferus et al [ 19851;soybean, Russell et al [1990]). The anaerobic protein profile of soybean is the simplest.…”

Section: Anaerobic Protein Synthesis In Tomato Rootsmentioning

confidence: 97%

The Role of Sugars, Hexokinase, and Sucrose Synthase in the Determination of Hypoxically Induced Tolerance to Anoxia in Tomato Roots

1997

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Hypoxic pretreatment of tomato (Lycopersiron esculentum M.)roots induced an acclimation to anoxia. Survival in the absence of oxygen was improved from 10 h to more than 36 h if externa1 sucrose was present. The energy charge value of anoxic tissues increased during the course of hypoxic acclimation, indicating an improvement of energy metabolism. In acclimated roots ethanol was produced immediately after transfer to anoxia and little lactic acid accumulated in the tissues. In nonacclimated roots significant ethanol synthesis occurred after a 1-h lag period, during which time large amounts of lactic acid accumulated in the tissues. Severa1 enzyme activities, including that of alcohol dehydrogenase, lactate dehydrogenase, pyruvate decarboxylase, and sucrose synthase, increased during the hypoxic pretreatment. In contrast to maize, hexokinase activities did not increase and phosphorylation of hexoses was strongly inhibited during anoxia in both kinds of tomato roots. Sucrose, but not glucose or fructose, was able to sustain glycolytic flux via the sucrose synthase pathway and allowed anoxic tolerance of acclimated roots. These results are discussed in relation to cytosolic acidosis and the ability of tomato roots to survive anoxia.

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Section: Anaerobic Protein Synthesis In Tomato Rootsmentioning

confidence: 97%

The Role of Sugars, Hexokinase, and Sucrose Synthase in the Determination of Hypoxically Induced Tolerance to Anoxia in Tomato Roots

1997

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“…Anaerobic stress proteins have been characterized as glycolytic enzymes like alcohol dehydrogenase (Xie and Wu, 1989). It was reported that water-logging -intolerant Echinochloa species did not produce anaerobic proteins (Mujer et al 1993). Rivoal et al (1997) reported that ADH gene and other fermentative genes were induced by hypoxia and water-logging.…”

Section: Alcohol Dehydrogenase (Adh)mentioning

confidence: 99%

Differential responses of aquatic and aerobic forms of Echinochloa crus-galli (L.) Beauv. and E. colona (L.) Link. by morpho-physiological and molecular analysis

Khedr

Serag

Shaaban

et al. 2017

Environ. Earth Ecol.

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Echinochloa crus-galli and E. colona are serious weeds around the world. Morphological and biochemical features of aquatic and aerobic forms of both species were investigated experimentally by transplanting the seedlings reciprocally between water-saturated and aerobic soils (70% field capacity). When the plants were grown in water-saturated soil, a significant decrease in tiller height was observed in E. crus-galli, but not in E. colona. Upon growing the plants in aerobic soil, internode length and spike dry weight increased significantly in E. crus-galli, but decreased significantly in E. colona. Growth under aerobic condition caused a significant increase in PEPC/Rubisco ratio, but a significant decrease was observed under water-saturated conditions. When E. crus-galli was transplanted in aerobic soil, several forms of peroxidase were upregulated. Contrarily, in E. colona peroxidase isoforms did not respond to habitat change. Gene expression of ADH in E. colona was constitutive at a fairly high level under native habitats then enhanced with reversing habitat that caused anoxic and mild drought conditions. Both species tend to grow faster under aerobic conditions by modifying the photosynthetic machinery and capacity of scavenging of reactive oxygen species. Furthermore, ADH appears to play a role in supporting growth under water-saturated conditions.

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“…Rice coleoptiles survived more than 21 day under complete oxygen deprivation and their metabolic activity was high enough to allow RNA and protein synthesis (Cobb and Kennedy, 1987;Mujer et al, 1993;Umeda and Uchimiya, 1994). The tolerance of rice coleoptiles to oxygen defi ciency is related to the ability to maintain glycolytic activity leading to ATP production (Guglielminetti et al, 1995;Perata et al, 1997;Gibbs et al, 2000;Rahman et al, 2001).…”

mentioning

confidence: 99%

Effects of Anoxia on Amino Acid Levels in Rice Coleoptiles

Kato‐Noguchi

Ohashi

2006

Plant Production Science

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Constitutive and Inducible Aerobic and Anaerobic Stress Proteins in the Echinochloa Complex and Rice

Cited by 62 publications

References 33 publications

The Role of Sugars, Hexokinase, and Sucrose Synthase in the Determination of Hypoxically Induced Tolerance to Anoxia in Tomato Roots

The Role of Sugars, Hexokinase, and Sucrose Synthase in the Determination of Hypoxically Induced Tolerance to Anoxia in Tomato Roots

Differential responses of aquatic and aerobic forms of Echinochloa crus-galli (L.) Beauv. and E. colona (L.) Link. by morpho-physiological and molecular analysis

Effects of Anoxia on Amino Acid Levels in Rice Coleoptiles

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