The Effect of Hypocotyl Temperature on Translocation of Carbohydrates from Bean Leaves

Böhning, R. H.; Swanson, C. A.; Linck, A. J.

doi:10.1104/pp.27.2.417

Cited by 25 publications

(13 citation statements)

References 2 publications

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“…Varying the temperature of the node has a direct effect on the transport of sugars in the phloem, and the results agree with the view that translocation is decreased by decreasing phloem temperature from about 25 "C (3,4,10,11,12,22,23,26,35). The temperature/translocation response and the derived Qlo values closely resemble those obtained from a wide variety of other physiological processes (2,15) and show no unusual deviations from which a clue concerning the mechanism might have been deduced.…”

Section: Discussionsupporting

confidence: 85%

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THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C¹⁴ IN THE SQUASH

Webb¹,

Gorham²

1965

Can. J. Bot.

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Varying the primary leaf node temperature from 0 to 45 OC did not alter the rate of either C1"On assitnilation or transpiration of the leaf blade. In contrast, the rate of C1"-sugar export from the blade was markedly influenced by the node temperature. At 0 "C there was no signilicant movement of C14 through the node, but a slow export of CIA-stachyose and C1"sucrose did continue from the blade into the petiole above the chilled node. This was associated with an abnormal accumulation of C1"-sugars in the blade, where the accumulated Clistachyose showed little metabolic turnover. Above 0 "C and typical of the response of many physiological mechanisms to temperature, the rate of CI4 movement through the node increased to a maximu~n a t 25 "C and fell again to zero a t 55 "C. The exports froill the blade of C1"-stachyose and C1.'-sucrose were equally affected by the different temperature treatments a t the node. The inhibitory effect of chilling on translocation was reversible, whereas the effect of heating to 55 "C was irreversible. When the node was rapidly returned from 0 to 25 "C a slow export from the blade began immediately but the normal rate was not restored until approximately 60 minutes later. I t is concluded that translocation of sugar through the node and basal region of the squash petiole is under direct physiological control. T h e process does not appear to be closely correlated with protoplas~nic streaming. lIssucd as N.R.C. No. 8495. 2Presented in part a t the annual meeting of the Canadian Society

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Section: Discussionsupporting

confidence: 85%

“…This mechanism as proposed by Miinch (see ref. These conclusions were disputed on the basis of more direct experimental evidence supplied by Hewitt and Curtis (12) and by Swanson and his collaborators (3,4,22). Went and Hull reasoned that this was so since a lowered phloem temperature must have reduced its metabolic rate.…”

Section: Introductionmentioning

confidence: 99%

THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C¹⁴ IN THE SQUASH

Webb¹,

Gorham²

1965

Can. J. Bot.

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confidence: 63%

“…Below 50 translocation is reversibly inhibited and above 450 the process is irreversibly destroyed. The response of sugar movement to temperature change in Cucuirbita resembles that obtained for a number of other higher plant species (2,6,7,12,15,19) and simulates the response to temperature change of a wide variety of other physiological processes (1,9 (2,7, 12, 15,19). There appears to be no need to asslume the existence of more than 1 mechanism conltrolling movement of the major part of the translocated sugar in any direction in Ciciirbita, as was considered necessary by Htull for the sugar beet (8) and by Hartt for the sugar cane (6).…”

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confidence: 54%

Translocation of Sugars in Cucurbita melopepo IV. Effects of Temperature Change

Webb

1967

Plant Physiol.

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Sulmmary. A study has been made of the temperature control of translocation localized to regions of the stem, petiole and hypocotyl of Cucurbita mielopepo. The basipetal and acropetal movement of translocated 14C-labeled compounds in the phloem tissue, measured over a 45-minute period, was almost completely inhibited at 00. At 100 a partial inhibition occurred while an extremely variable degree of inhibition occurred at 150. Above 150 to 350 temperature ceased to be a limiting factor in the movement of 14C-labeled compounds. At 450 partial inhibition was observed while at 550 there was an almost complete cessation. The localized temperature treatment of the plant parts did not disturb the rate of 1*002 assimilation or the export of 14C compounds by the leaf blade. Translocated compounds unable to pass a temperature inhibited zone were diverted toward other importing regions of the plant. The similarity of the translocation response to temperature change in the various organs of the plant indicated a uniform mechanism throughout the plant controlling movement of the major proportion of the translocated compounds. The temperature characteristics of the mechanism were found to closely parallel those of protoplasmic streaming in chill-sensitive plants.A previotus report showed that the transport of 14C-labeled sugars through the phloem of mature nodes of Cutcuirbita melopepo is sensitive to partictular ranges of temperature change (18). Below 50 translocation is reversibly inhibited and above 450 the process is irreversibly destroyed. The response of sugar movement to temperature change in Cucuirbita resembles that obtained for a number of other higher plant species (2,6,7,12,15,19)

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“…It is also of interest to note that this inhibition occurred even though the pod was outside of the direct line of transport to other areas of the plant. Böhning et al 7 found a similar "remote control" effect of cooling the hypocotyl of bean plants on movement of carbohydrate to the growing stem tip.…”

Section: The E//ect O/ Pod Temperature On the Distribution O/ Phosphomentioning

confidence: 90%

A study of several factors affecting the distribution of phosphorus-32 from the leaves ofPisum sativum

Linck

Swanson

1960

Plant Soil

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The Effect of Hypocotyl Temperature on Translocation of Carbohydrates from Bean Leaves

Cited by 25 publications

References 2 publications

THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C¹⁴ IN THE SQUASH

THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C¹⁴ IN THE SQUASH

Translocation of Sugars in Cucurbita melopepo IV. Effects of Temperature Change

A study of several factors affecting the distribution of phosphorus-32 from the leaves ofPisum sativum

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The Effect of Hypocotyl Temperature on Translocation of Carbohydrates from Bean Leaves

Cited by 25 publications

References 2 publications

THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C14 IN THE SQUASH

THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C14 IN THE SQUASH

Translocation of Sugars in Cucurbita melopepo IV. Effects of Temperature Change

A study of several factors affecting the distribution of phosphorus-32 from the leaves ofPisum sativum

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THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C¹⁴ IN THE SQUASH

THE EFFECT OF NODE TEMPERATURE ON ASSIMILATION AND TRANSLOCATION OF C¹⁴ IN THE SQUASH