Ontogenetic Variation of Four Cytokinins in Soybean Root Pressure Exudate

Heindl, Josephine C.; Carlson, Dale R.; Brun, William A.; Brenner, Mark L.

doi:10.1104/pp.70.6.1619

Cited by 60 publications

(51 citation statements)

References 14 publications

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“…Such a phenomenon, i.e. a low cytokinin content in exudate at the early reproductive stage, has been observed in rice (23) and soybean (8). After heading, the cytokinin activities declined as leaves senesced and grains filled.…”

Section: Discussionmentioning

confidence: 91%

“…As such, the exudation rate and cytokinin biosynthesis in the root may be controlled by different systems. In fact, lack of similarities between exudation rate and cytokinin flux has been shown in tomato (3), lupine (4,5), sunflower (18), and soybean (8). Hence, we presented our results as amount of cytokinin per plant per 12 h and not as concentration.…”

Section: Discussionmentioning

confidence: 97%

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Changes in Cytokinin Activities and Mass Spectrometric Analysis of Cytokinins in Root Exudates of Rice Plant (Oryza sativa L.)

Soejima¹,

Sugiyama²,

Ishihara³

1992

Plant Physiol.

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Changes in exudation rate and cytokinin activities in the exudates were measured in two varieties of rice (Oryza sativa L.), cv Nipponbare (a Japanese normal cultivar) and cv Akenohoshi (a highyielding cultivar). The exudation rates of Akenohoshi, the leaves of which remained green for a longer time, were higher than those of Nipponbare after the booting stage. Cytokinin activities in the exudates of Akenohoshi were higher than those of Nipponbare during the ripening period. Cytokinins in the exudates collected during the middle of the ripening stage were analyzed with mass spectrometry using deuterium-labeled standards. trans-Zeatin, trans-ribosylzeatin, and N'-isopentenyladenosine were detected as free cytokinins, and zeatin was detected in the hydrolysates of highly polar fractions ("conjugated zeatin") in the exudates of both cultivars. Conjugated zeatin was the predominant cytokinin in both cultivars. Therefore, we suggest that conjugated zeatin is an important form of cytokinin during the ripening stage. The level of each of the cytokinins in Akenohoshi was higher than that in Nipponbare. Also, we discuss the correlation between the leaf senescence and cytokinin content in root exudates.In a previous study to clarify the physiological and ecological characteristics of high-yielding rice varieties (11, 12), it was reported that the yield in Akenohoshi was about 1780 kg/ha higher than that in Nipponbare, a Japanese standard cultivar, and that Akenohoshi had a higher dry matter production capacity compared with Nipponbare. This was attributed to the maintenance of a higher net assimilation rate during the ripening period in the former. 1724 stage were 9.2 ,umol of CO2 m-2 s-' (44.6% of its maximum rate at the panicle formation stage) and 12.7 smol of CO2 m-2 S-1 (62.0%), respectively. In addition, the cause for these differences between the two cultivars was examined by measuring the active and passive water absorption abilities of the roots. The rate of exudation from the main stem and the resistance to water transport from the root surface to the leaves under intense transpiration were higher and lower in Akenohoshi than in Nipponbare, respectively. These differences between the two cultivars were especially large during the ripening stage. This fact suggests that physiological activity in the roots of Akenohoshi was higher than that in Nipponbare. It is known that a decline in the physiological activity of roots causes leaf senescence and death of the leaves at the lower positions (10), but the mechanism by which this occurs is not understood well.Cytokinins transported from the roots via the xylem are known to delay leaf senescence (6,16,18). In the exudate of rice plants, several cytokinins were identified (15). However, the constitution of cytokinins in the exudate, the level of these cytokinins, and their effects on leaf photosynthesis and senescence have been examined in only a few studies (20).In this report, we discuss the changes in the exudation rates and cytokinin activities in the exudat...

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Section: Discussionmentioning

confidence: 91%

Section: Discussionmentioning

confidence: 97%

Changes in Cytokinin Activities and Mass Spectrometric Analysis of Cytokinins in Root Exudates of Rice Plant (Oryza sativa L.)

Soejima¹,

Sugiyama²,

Ishihara³

1992

Plant Physiol.

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“…Liu et al (2003) found that the reduced pod-set percentage induced by water defi cit was associated with an increase in ABA content of reproductive structures during a period from 3 to 5 days after anthesis. Endogenous cytokinins detected in exudate showed a maximum concentration during a period from 0 to 9 days after anthesis, when most fl owers are destined to either initiate or abort pods (Heindl et al, 1982;. The application of BA to racemes reduced abortion and increased pod number (Crosby et al, 1981;Carlson et al, 1987;Dyer et al, 1987;Peterson et al, 1990;Mosjidis et al, 1993;Reese et al, 1995;Nagel et al, 2001).…”

mentioning

confidence: 96%

“…By reducing this abortion, we might be able to increase pod and seed numbers, thereby increasing the yield (Kokubun, 2004). Many previous studies have focused on two possible factors that might be involved in regulating the abortion; availability of photoassimilate or nutrients (Brevedan et al, 1978;Antos and Wiebold, 1984;Brun and Betts, 1984;Heitholt, 1986aHeitholt, , 1986b and quantity of certain hormones (Huff and Dybing, 1980;Heindl et al, 1982;Spollen et al, 1986aSpollen et al, , 1986bCarlson et al, 1987;Yarrow et al, 1988;Kokubun and Honda, 2000).…”

mentioning

confidence: 99%

Effects of Source/Sink Ratio and Cytokinin Application on Pod Set in Soybean

Yashima

Kaihatsu

Nakajima

et al. 2005

Plant Production Science

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“…They concluded the developing seeds do not accumulate significant proportions of these cytokinins. The principal xylem cytokinins in soybean appear to be ZR and DZR (8). Since the latter is more stable than ZR (12), it is particularly important to assess its translocation pattern and metabolism using the explant system.…”

mentioning

confidence: 99%

Cytokinin Biochemistry in Relation to Leaf Senescence

Singh¹,

Letham²,

Jameson³

et al. 1988

Plant Physiol.

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When VHjdihydrozeatin riboside and I3Hizeatin riboside were supplied to soybean (Glycine max L.) explants (comprising one leaf, associated pods, and subtending stem) via the xylem at mid to late podfill, 0.1% of the supplied 3H was extracted from the seeds. The distribution of 3H in the explants was similar to that bound previously following uptake of 13Hlzeatin riboside at earlier stages of pod development. Metabolites formed in the explants from 3H-labeled zeatin, zeatin riboside, and dihydrozeatin riboside were identified and related to the endogenous cytokinins shown to be present. When zeatin riboside and zeatin were supplied for 1 hour, zeatin nucleotide was the principal metabolite formed and this appeared to be the precursor of the other metabolites detected subsequently. Explants supplied with zeatin riboside or dihydrozeatin riboside for 1 hour, and then transferred to water for 20 to 24 hours, yielded leaf blades in which the main metabolites were O-glucosyldihydrozeatin, adenosine, and adenine. The metabolism of zeatin riboside in blades of explants at pre-podfill, early podfill, and mid to late podfill did not differ appreciably. The results are discussed in relation to leaf senescence and seed development.Onset of monocarpic leaf senescence (20)

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Ontogenetic Variation of Four Cytokinins in Soybean Root Pressure Exudate

Cited by 60 publications

References 14 publications

Changes in Cytokinin Activities and Mass Spectrometric Analysis of Cytokinins in Root Exudates of Rice Plant (Oryza sativa L.)

Changes in Cytokinin Activities and Mass Spectrometric Analysis of Cytokinins in Root Exudates of Rice Plant (Oryza sativa L.)

Effects of Source/Sink Ratio and Cytokinin Application on Pod Set in Soybean

Cytokinin Biochemistry in Relation to Leaf Senescence

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