Changes in cell wall ultrastructure induced by sudden flooding at 25°C in Pisum sativum (Fabaceae) primary roots

Cellular degeneration is essential for many developmental and stress acclimation processes. Undifferentiated parenchymatous cells in the central vascular cylinder of pea primary roots degenerate under hypoxic conditions created by flooding at temperatures >15°C, forming a long vascular cavity tha...

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Veröffentlicht in:	American journal of botany 2008-07, Vol.95 (7), p.782-792
Hauptverfasser:	Sarkar, Purbasha, Niki, Teruo, Gladish, Daniel K
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Sprache:	eng
Schlagworte:	Apoptosis Botany Cell Biology Cell growth Cell nucleus cell wall ultrastructure Cell walls Cells cellular breakdown Cylinders Delta cells flooding and warm temperature response Floods Flowers & plants homogalacturonan (HG) Intercellular junctions Organelles Peas Pisum sativum Plant roots Plants primary root programmed cell death (PCD) vascular cavity
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creator	Sarkar, Purbasha Niki, Teruo Gladish, Daniel K
description	Cellular degeneration is essential for many developmental and stress acclimation processes. Undifferentiated parenchymatous cells in the central vascular cylinder of pea primary roots degenerate under hypoxic conditions created by flooding at temperatures >15°C, forming a long vascular cavity that seems to provide a conduit for longitudinal oxygen transport in the roots. We show that specific changes in the cell wall ultrastructure accompanied previously detected cytoplasmic and organellar degradation in the cavity-forming roots. The degenerating cells had thinner primary cell walls, less electron-dense middle lamellae, and less abundant cell wall homogalacturonans in altered patterns, compared to healthy cells of roots grown under cold, nonflooded conditions. Cellular breakdown and changes in wall ultrastructure, however, remained confined to cells within a 50-μm radius around the root center, even after full development of the cavity. Cells farther away maintained cellular integrity and had signs of wall synthesis, perhaps from tight regulation of wall metabolism over short distances. These observations suggest that the cell degeneration might involve programmed cell death. We also show that warm, nonflooded or cold, flooded conditions that typically do not induce vascular cavity formation can also induce variations in cell wall ultrastructure.
doi_str_mv	10.3732/ajb.2007381
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Undifferentiated parenchymatous cells in the central vascular cylinder of pea primary roots degenerate under hypoxic conditions created by flooding at temperatures >15°C, forming a long vascular cavity that seems to provide a conduit for longitudinal oxygen transport in the roots. We show that specific changes in the cell wall ultrastructure accompanied previously detected cytoplasmic and organellar degradation in the cavity-forming roots. The degenerating cells had thinner primary cell walls, less electron-dense middle lamellae, and less abundant cell wall homogalacturonans in altered patterns, compared to healthy cells of roots grown under cold, nonflooded conditions. Cellular breakdown and changes in wall ultrastructure, however, remained confined to cells within a 50-μm radius around the root center, even after full development of the cavity. Cells farther away maintained cellular integrity and had signs of wall synthesis, perhaps from tight regulation of wall metabolism over short distances. These observations suggest that the cell degeneration might involve programmed cell death. 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Undifferentiated parenchymatous cells in the central vascular cylinder of pea primary roots degenerate under hypoxic conditions created by flooding at temperatures >15°C, forming a long vascular cavity that seems to provide a conduit for longitudinal oxygen transport in the roots. We show that specific changes in the cell wall ultrastructure accompanied previously detected cytoplasmic and organellar degradation in the cavity-forming roots. The degenerating cells had thinner primary cell walls, less electron-dense middle lamellae, and less abundant cell wall homogalacturonans in altered patterns, compared to healthy cells of roots grown under cold, nonflooded conditions. Cellular breakdown and changes in wall ultrastructure, however, remained confined to cells within a 50-μm radius around the root center, even after full development of the cavity. Cells farther away maintained cellular integrity and had signs of wall synthesis, perhaps from tight regulation of wall metabolism over short distances. These observations suggest that the cell degeneration might involve programmed cell death. We also show that warm, nonflooded or cold, flooded conditions that typically do not induce vascular cavity formation can also induce variations in cell wall ultrastructure.</description><subject>Apoptosis</subject><subject>Botany</subject><subject>Cell Biology</subject><subject>Cell growth</subject><subject>Cell nucleus</subject><subject>cell wall ultrastructure</subject><subject>Cell walls</subject><subject>Cells</subject><subject>cellular breakdown</subject><subject>Cylinders</subject><subject>Delta cells</subject><subject>flooding and warm temperature response</subject><subject>Floods</subject><subject>Flowers & plants</subject><subject>homogalacturonan (HG)</subject><subject>Intercellular junctions</subject><subject>Organelles</subject><subject>Peas</subject><subject>Pisum sativum</subject><subject>Plant roots</subject><subject>Plants</subject><subject>primary root</subject><subject>programmed cell death (PCD)</subject><subject>vascular cavity</subject><issn>0002-9122</issn><issn>1537-2197</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNp9ks1u1DAUhS0EokNhxRqwKiFAKMW-juN4WUaUH1UCCbq2_JcZjzJJaydE81Y8A0-GowxdsGDjK-t-9-hcHyP0lJJzJhi80ztzDoQIVtN7aEU5EwVQKe6jFSEECkkBTtCjlHb5KksJD9EJ0IpBScoVul1vdbfxCYcOW9-2eNL5GNsh6jTE0Q5j9LnnRusdNgecRud8h5u2713oNlgPGPjvX-t5_ltI4x4nPYSfub6-1EZbr_0bfBPDXscDjn0_pMfoQaPb5J8c6ym6vvzwY_2puPr68fP64qqwrKyhqFzJTGMlM4KJkrjKUKN9KbVt6rLSPG-upQRXC0-pdb4SRpiSs6qxVcUFZ6fo1aJ7E_vb0adB7UOaV9Sd78ekakFAAmUzefYPuevH2GVzCiivJRESMvR2gWzsU4q-UcetFCVqzkHlHNQxh0w_P0qOZu_dHfv34TNAF2AKrT_8T0tdfHkPRNSzhWfLzC4NfbybKakEYFDn_sulvw2b7RSiV2mf08wWqJqmSXIl1KLzYuEa3Su9iSGp6-9AKMv_g0jOKfsDoLyxyw</recordid><startdate>200807</startdate><enddate>200807</enddate><creator>Sarkar, Purbasha</creator><creator>Niki, Teruo</creator><creator>Gladish, Daniel K</creator><general>Botanical Society of America</general><general>Botanical Soc America</general><general>Botanical Society of America, Inc</general><scope>FBQ</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QL</scope><scope>7SN</scope><scope>7SS</scope><scope>7ST</scope><scope>7U9</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>H94</scope><scope>M7N</scope><scope>P64</scope><scope>RC3</scope><scope>SOI</scope><scope>7X8</scope></search><sort><creationdate>200807</creationdate><title>Changes in cell wall ultrastructure induced by sudden flooding at 25°C in Pisum sativum (Fabaceae) primary roots</title><author>Sarkar, Purbasha ; 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Undifferentiated parenchymatous cells in the central vascular cylinder of pea primary roots degenerate under hypoxic conditions created by flooding at temperatures >15°C, forming a long vascular cavity that seems to provide a conduit for longitudinal oxygen transport in the roots. We show that specific changes in the cell wall ultrastructure accompanied previously detected cytoplasmic and organellar degradation in the cavity-forming roots. The degenerating cells had thinner primary cell walls, less electron-dense middle lamellae, and less abundant cell wall homogalacturonans in altered patterns, compared to healthy cells of roots grown under cold, nonflooded conditions. Cellular breakdown and changes in wall ultrastructure, however, remained confined to cells within a 50-μm radius around the root center, even after full development of the cavity. 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subjects	Apoptosis Botany Cell Biology Cell growth Cell nucleus cell wall ultrastructure Cell walls Cells cellular breakdown Cylinders Delta cells flooding and warm temperature response Floods Flowers & plants homogalacturonan (HG) Intercellular junctions Organelles Peas Pisum sativum Plant roots Plants primary root programmed cell death (PCD) vascular cavity
title	Changes in cell wall ultrastructure induced by sudden flooding at 25°C in Pisum sativum (Fabaceae) primary roots
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