Starch depletion in the xylem and phloem ray parenchyma of grapevine stems under drought.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-08-30 eCollection Date: 2023-10-01 DOI:10.1093/aobpla/plad062
Kyra A Prats, Ana C Fanton, Craig R Brodersen, Morgan E Furze
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Abstract

While nonstructural carbohydrate (NSC) storage can support long-lived woody plants during abiotic stress, the timing and extent of their use are less understood, as are the thresholds for cell mortality as NSCs and water supplies are consumed. Here, we combine physiological and imaging tools to study the response of Vitis riparia to a 6-week experimental drought. We focused on the spatial and temporal dynamics of starch consumption and cell viability in the xylem and phloem of the stem. Starch dynamics were further corroborated with enzymatic starch digestion and X-ray microcomputed tomography imaging. Starch depletion in the stems of droughted plants was detected after 2 weeks and continued over time. We observed distinct differences in starch content and cell viability in the xylem and phloem. By the end of the drought, nearly all the starch was consumed in the phloem ray parenchyma (98 % decrease), and there were almost no metabolically active cells in the phloem. In contrast, less starch was consumed in the xylem ray parenchyma (30 % decrease), and metabolically active cells remained in the ray and vessel-associated parenchyma in the xylem. Our data suggest that the higher proportion of living cells in the phloem and cambium, combined with smaller potential NSC storage area, rapidly depleted starch, which led to cell death. In contrast, the larger cross-sectional area of the xylem ray parenchyma with higher NSC storage and lower metabolically active cell populations depleted starch at a slower pace. Why NSC source-sink relationships between xylem and phloem do not allow for a more uniform depletion of starch in ray parenchyma over time is unclear. Our data help to pinpoint the proximate and ultimate causes of plant death during prolonged drought exposure and highlight the need to consider the influence of within-organ starch dynamics and cell mortality on abiotic stress response.

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干旱条件下葡萄茎木质部和韧皮部射线薄壁组织的淀粉耗竭
虽然非结构性碳水化合物(NSC)的储存可以在非生物胁迫下支持长寿命的木本植物,但它们的使用时间和范围尚不清楚,正如NSCs和水供应消耗时细胞死亡的阈值一样。在这里,我们结合生理和成像工具来研究葡萄对6周实验干旱的反应。我们重点研究了茎木质部和韧皮部淀粉消耗和细胞活力的时空动态变化。淀粉动力学进一步证实了酶淀粉消化和x射线微计算机断层扫描成像。两周后检测到干旱植物茎中的淀粉消耗,并持续一段时间。我们观察到木质部和韧皮部的淀粉含量和细胞活力存在明显差异。到干旱结束时,韧皮部射线薄壁几乎消耗了所有的淀粉(减少了98%),韧皮部几乎没有代谢活性细胞。相比之下,木质部射线薄壁中淀粉消耗较少(减少30%),木质部射线薄壁和导管相关薄壁中仍有代谢活跃的细胞。我们的数据表明,韧皮部和形成层的活细胞比例较高,加上潜在的NSC储存面积较小,淀粉迅速耗尽,导致细胞死亡。相比之下,木质部射线薄壁的横截面积越大,NSC储存量越大,代谢活性细胞群越低,淀粉消耗速度越慢。为什么木质部和韧皮部之间的NSC源库关系不允许射线薄壁中淀粉随时间的更均匀消耗尚不清楚。我们的数据有助于查明植物在长期干旱暴露期间死亡的直接和最终原因,并强调需要考虑器官内淀粉动力学和细胞死亡对非生物胁迫反应的影响。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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