The oxygen supply to thermogenic flowers

Seymour, Roger S.; Ito, Kikukatsu; Umekawa, Yui; Matthews, Philip D. G.; Pirintsos, Stergios

doi:10.1111/pce.12454

Cited by 9 publications

(12 citation statements)

References 31 publications

(67 reference statements)

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“…However, if Ṁ o 2 depends on Po 2 near 21 kPa, then the system is diffusion‐limited, and some mitochondria are normally not O 2 saturated. Our experiments have indicated that some moderately thermogenic species are not diffusion‐limited, but the most thermogenic species are (Seymour, Ito, Umekawa, Matthews, & Pirintsos, ). In particular, Ṁ o 2 of inflorescences of the Japanese skunk cabbage Symplocarpus renifolius declines at all Po 2 levels below 21 kPa in the most thermogenic individuals (i.e.…”

Section: Introductionmentioning

confidence: 84%

“…If the respiratory quotient (Ṁ co 2 /Ṁ o 2 ) in S. renifolius is approximately 1.0, as it is in S. foetidus (Seymour & Blaylock, ), the previous Ṁ CO 2 data correspond well with the present data. In further experiments on S. renifolius designed to test for diffusion limitation by varying ambient Po 2 , Ṁ o 2 varied between 117 and 356 nmol O 2 s −1 g −1 when T s was 15 °C and Po 2 was 20.9 kPa (Seymour et al, ). Two inflorescences with the lowest Ṁ o 2 (117 and 148 nmol O 2 s −1 g −1 ) did not appear to be diffusion‐limited, because the regression of Ṁ o 2 on Po 2 nearly plateaued (98% asymptotic) at 20.9 kPa.…”

Section: Discussionmentioning

confidence: 99%

“…Nothing is known about the structure of these spaces that would allow morphometric analysis of the diffusion pathway. However, Po 2 transects of the thermogenic spadix of S. renifolius made with O 2 ‐sensing, fibre‐optic probes reveal a complex architecture (Seymour et al, ). Po 2 does not decrease uniformly with depth, but varies widely, probably as the probe tip encounters either the gas network or the cytoplasm of parenchymal cells.…”

Section: Discussionmentioning

confidence: 99%

“…Excurrent oxygen fraction ( Feo 2 ) was measured 3 min later when its value was stable. The rate of oxygen consumed by the plant was calculated simply as Ṁ o 2 = Ṁ i ( Fio 2 – Feo 2 ) × 1.022, where 1.022 corrects for CO 2 production rate as measured in a previous study (Seymour et al, ). The data were standardized on a mass‐specific basis in which mass is the fresh weight of the entire spadix, including pith.…”

Section: Methodsmentioning

confidence: 99%

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Respiration of thermogenic inflorescences of skunk cabbage Symplocarpus renifolius in heliox

Seymour

Umekawa

2017

Plant Cell & Environment

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The respiration rate of the thermogenic inflorescences of Japanese skunk cabbage Symplocarpus renifolius can reach 300 nmol s g , which is sufficient to raise spadix temperature (T ) up to 15 °C above ambient air temperature (T ). Respiration rate is inversely related to T , such that the T achieves a degree of independence from T , an effect known as temperature regulation. Here, we measure oxygen consumption rate (Ṁo ) in air (21% O in mainly N ) and in heliox (21% O in He) to investigate the diffusive conductance of the network of gas-filled spaces and the thermoregulatory response. When T was clamped at 15 °C, the temperature that produces maximal Ṁo in this species, exposure to high diffusivity heliox increased mean Ṁo significantly from 137 ± 17 to 202 ± 43 nmol s g FW, indicating that respiration in air is normally limited by diffusion in the gas phase and some mitochondria are unsaturated. When T was clamped at 15 °C and T was allowed to vary, exposure to heliox reduced T 1 °C and increased Ṁo significantly from 116 ± 10 to 137 ± 19 nmol s g , indicating that enhanced heat loss by conduction and convection can elicit the thermoregulatory response.

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Section: Introductionmentioning

confidence: 84%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Respiration of thermogenic inflorescences of skunk cabbage Symplocarpus renifolius in heliox

Seymour

Umekawa

2017

Plant Cell & Environment

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“…Assuming that Ala adequately mimics dehydro-Ala in the THI4 active site, these results indicate that C. bicolor THI4 could function catalytically in male flower tissue after an initial suicide reaction, provided that the oxygen level is low and the sulfide level is relatively high. Aroid spadices are known to become internally hypoxic at the flowering (thermogenic) stage (Seymour et al, 2015), and classical data on oxygen consumption rates indicate that they also may be hypoxic at earlier stages when tightly wrapped in the spathe (James and Beevers, 1950;Seymour et al, 1984). As noted above, sulfide levels in plant tissues may exceed those in E. coli.…”

Section: Bicolor Thi4 May Retain Catalytic Activity After Loss Of mentioning

confidence: 98%

Parts-Prospecting for a High-Efficiency Thiamin Thiazole Biosynthesis Pathway

et al. 2018

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Plants synthesize the thiazole precursor of thiamin (cThz-P) via THIAMIN4 (THI4), a suicide enzyme that mediates one reaction cycle and must then be degraded and resynthesized. It has been estimated that this THI4 turnover consumes 2% to 12% of the maintenance energy budget and that installing an energy-efficient alternative pathway could substantially increase crop yield potential. Available data point to two natural alternatives to the suicidal THI4 pathway: (i) nonsuicidal prokaryotic THI4s that lack the active-site Cys residue on which suicide activity depends, and (ii) an uncharacterized thiazole synthesis pathway in flowers of the tropical arum lily Caladium bicolor that enables production and emission of large amounts of the cThz-P analog 4-methyl-5-vinylthiazole (MVT). We used functional complementation of an Escherichia coli ΔthiG strain to identify a nonsuicidal bacterial THI4 (from Thermovibrio ammonificans) that can function in conditions like those in plant cells. We explored whether C. bicolor synthesizes MVT de novo via a novel route, via a suicidal or a nonsuicidal THI4, or by catabolizing thiamin. Analysis of developmental changes in MVT emission, extractable MVT, thiamin level, and THI4 expression indicated that C. bicolor flowers make MVT de novo via a massively expressed THI4 and that thiamin is not involved. Functional complementation tests indicated that C. bicolor THI4, which has the active-site Cys needed to operate suicidally, may be capable of suicidal and-in hypoxic conditions-nonsuicidal operation. T. ammonificans and C. bicolor THI4s are thus candidate parts for rational redesign or directed evolution of efficient, nonsuicidal THI4s for use in crop improvement.

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