Evidence of a latent oxidative burst in relation to wound repair in the giant unicellular chlorophyte Dasycladus vermicularis

Clifford Ross; Frithjof Küpper; Valerie Vreeland; J Herbert Waite; Robert S Jacobs

doi:10.1111/j.1529-8817.2005.04072.x

Evidence of a latent oxidative burst in relation to wound repair in the giant unicellular chlorophyte Dasycladus vermicularis

Clifford Ross
, Frithjof Küpper
, Valerie Vreeland
, J Herbert Waite
, Robert S Jacobs

SAMS UHI

Publikation: Article › Begutachtung

37 Zitate (Scopus)

Abstract

We investigated the kinetics and composition of the second phase of the wound repair process of Dasycladus vermicularis ([Scropoli] Krasser) using fluorescent probes, chromatography, UV spectroscopy, and histochemistry. Our new evidence supports the hypothesis that the second phase of wound repair (initiated at approximately 35-45 min postinjury) is based on the activation of an oxidative burst that produces micromolar H2O2 levels. These results provide evidence of peroxidase activity at the wound site, real-time measurements of an oxidative burst, and catechol localization in wound plugs. Strong evidence is presented indicating that the biochemical machinery exists for oxidative cross-linking to ensue in the wound-healing process of D. vermicularis.

Originalsprache	English
Seiten (von - bis)	531-541
Seitenumfang	11
Fachzeitschrift	J PHYCOL
Jahrgang	41
Ausgabenummer	3
DOIs	https://doi.org/10.1111/j.1529-8817.2005.04072.x
Publikationsstatus	Published - 2005

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10.1111/j.1529-8817.2005.04072.x

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title = "Evidence of a latent oxidative burst in relation to wound repair in the giant unicellular chlorophyte Dasycladus vermicularis",

abstract = "We investigated the kinetics and composition of the second phase of the wound repair process of Dasycladus vermicularis ([Scropoli] Krasser) using fluorescent probes, chromatography, UV spectroscopy, and histochemistry. Our new evidence supports the hypothesis that the second phase of wound repair (initiated at approximately 35-45 min postinjury) is based on the activation of an oxidative burst that produces micromolar H2O2 levels. These results provide evidence of peroxidase activity at the wound site, real-time measurements of an oxidative burst, and catechol localization in wound plugs. Strong evidence is presented indicating that the biochemical machinery exists for oxidative cross-linking to ensue in the wound-healing process of D. vermicularis.",

keywords = " OXYGEN PRODUCTION, PLANT-DISEASE RESISTANCE, ALGAE CLADOPHORA-GLOMERATA, CROSS-LINKING, Marine \& Freshwater Biology, CELLS, FERULIC ACID, HYDROGEN-PEROXIDE, NEUTROPHIL NADPH OXIDASE, MECHANISM, Plant Sciences, WALL STRUCTURAL PROTEINS",

author = "Clifford Ross and Frithjof K{\"u}pper and Valerie Vreeland and Waite, \{J Herbert\} and Jacobs, \{Robert S\}",

year = "2005",

doi = "10.1111/j.1529-8817.2005.04072.x",

language = "English",

volume = "41",

pages = "531--541",

journal = "J PHYCOL",

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T1 - Evidence of a latent oxidative burst in relation to wound repair in the giant unicellular chlorophyte Dasycladus vermicularis

AU - Ross, Clifford

AU - Küpper, Frithjof

AU - Vreeland, Valerie

AU - Waite, J Herbert

AU - Jacobs, Robert S

PY - 2005

Y1 - 2005

N2 - We investigated the kinetics and composition of the second phase of the wound repair process of Dasycladus vermicularis ([Scropoli] Krasser) using fluorescent probes, chromatography, UV spectroscopy, and histochemistry. Our new evidence supports the hypothesis that the second phase of wound repair (initiated at approximately 35-45 min postinjury) is based on the activation of an oxidative burst that produces micromolar H2O2 levels. These results provide evidence of peroxidase activity at the wound site, real-time measurements of an oxidative burst, and catechol localization in wound plugs. Strong evidence is presented indicating that the biochemical machinery exists for oxidative cross-linking to ensue in the wound-healing process of D. vermicularis.

AB - We investigated the kinetics and composition of the second phase of the wound repair process of Dasycladus vermicularis ([Scropoli] Krasser) using fluorescent probes, chromatography, UV spectroscopy, and histochemistry. Our new evidence supports the hypothesis that the second phase of wound repair (initiated at approximately 35-45 min postinjury) is based on the activation of an oxidative burst that produces micromolar H2O2 levels. These results provide evidence of peroxidase activity at the wound site, real-time measurements of an oxidative burst, and catechol localization in wound plugs. Strong evidence is presented indicating that the biochemical machinery exists for oxidative cross-linking to ensue in the wound-healing process of D. vermicularis.

KW - OXYGEN PRODUCTION

KW - PLANT-DISEASE RESISTANCE

KW - ALGAE CLADOPHORA-GLOMERATA

KW - CROSS-LINKING

KW - Marine & Freshwater Biology

KW - CELLS

KW - FERULIC ACID

KW - HYDROGEN-PEROXIDE

KW - NEUTROPHIL NADPH OXIDASE

KW - MECHANISM

KW - Plant Sciences

KW - WALL STRUCTURAL PROTEINS

U2 - 10.1111/j.1529-8817.2005.04072.x

DO - 10.1111/j.1529-8817.2005.04072.x

M3 - Article

VL - 41

SP - 531

EP - 541

JO - J PHYCOL

JF - J PHYCOL

IS - 3

ER -

Evidence of a latent oxidative burst in relation to wound repair in the giant unicellular chlorophyte Dasycladus vermicularis

Abstract

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