Flumorph Is a Novel Fungicide That Disrupts Microfilament Organization in Phytophthora melonis

The mechanism of the effects of flumorph (a novel fungicide) was investigated by analyzing alterations of hyphal morphology, cell wall deposition patterns, F-actin organization, and other organelles in Phytophthora melonis. Calcofluor white staining suggested that flumorph did not inhibit the synthesis of cell wall materials, but disturbed the polar deposition of newly synthesized cell wall materials during cystospore germination and hyphal growth. After exposure to flumorph, zoospores were able to switch into cystospores accompanied with the formation of a cell wall, whereas cystospores failed to induce the isotropic-polar switch and did not produce germ tubes but continued the isotropic growth phase. In flumorph-treated hyphae, the most characteristic change was the development of periodic swelling (“beaded” morphology) and the disruption of tip growth. Newly synthesized cell wall materials were deposited uniformly throughout the diffuse expanded region of hyphae, in contrast to their normal polarized patterns of deposition. These alterations were the result of F-actin disruption, identified with the fluorescein isothiocynate (FITC)-phalloidin staining. The disruption of F-actin also was accompanied by disorganized organelles: each swelling of subapical hyphae was associated with a nucleus. Vesicles did not undergo polarized secretion to the apical hyphae, but diffused around nuclei for the subapical growth; thus, the cell wall was thickened with periodic expansion along the hyphae. Upon removing flumorph, normal tip growth and organized F-actin were observed again. These data, as well as data published earlier, suggest that flumorph may be involved in the impairment of cell polar growth through directly or indirectly disrupting the organization of F-actin. The primary site of action by flumorph in the disruption of the F-actin organization is under investigation.

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Time of Harvest and Method of Storage Affect Granulation in Grapefruit

HortScience ◽

10.21273/hortsci.33.4.728 ◽

1998 ◽

Vol 33 (4) ◽

pp. 728-730 ◽

Cited By ~ 14

Author(s):

Jacqueline K. Burns ◽

L. Gene Albrigo

Keyword(s):

Cell Wall ◽

Fruit Size ◽

Tree Age ◽

Citrus Paradisi ◽

Marked Accumulation ◽

Wall Materials ◽

Time Of Harvest ◽

Cell Wall Materials

Temporal studies were conducted from mid- to late-harvest season of `Ruby Red' grapefruit (Citrus paradisi Macf.) to evaluate the effect of on- and off-tree storage, fruit size, and juice vesicle position on the development of granulation. Juice vesicle fresh and dry masses were highest at the stem and stylar positions of the fruit section and were not affected significantly by time of harvest or by storage. Juice vesicles isolated from each position were subjectively evaluated for the presence of granulation. Granulation was highest in stylar juice vesicles obtained from large fruit (≈600 g) that were harvested late in the season (March and May) and stored in air at 21 °C for 60 days. Large fruit harvested in March and May and examined immediately, and fruit harvested in January and stored for 60 days had low granulation scores. Thus, fruit remaining on the tree until May are less susceptible to the disorder than those harvested in March and held in storage until May. Levels of alcohol-insoluble solids (AIS), largely composed of pectins and other cell wall materials, were significantly higher in juice vesicles that were granulated. The results suggest that storage itself was not responsible for the marked accumulation of AIS in granulated juice vesicles. Rather, some interaction of fruit size with maturation, as well as other factors such as tree age and rootstock, likely contributed to the development of granulation.

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Copolymerization of Bacterial Cell Wall Materials to Enhance Stability of Polyhydroxyalkanoate

Macromolecular Chemistry and Physics ◽

10.1002/macp.201200503 ◽

2012 ◽

Vol 213 (24) ◽

pp. 2647-2652 ◽

Cited By ~ 1

Author(s):

Ning Chen ◽

Xu Xiang ◽

Ratul Saha ◽

Susan T. Bagley ◽

Patricia A. Heiden

Keyword(s):

Cell Wall ◽

Bacterial Cell ◽

Bacterial Cell Wall ◽

Wall Materials ◽

Cell Wall Materials

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Physicochemical properties of cell wall materials from apple, kiwifruit and tomato

European Food Research and Technology ◽

10.1007/s00217-007-0762-1 ◽

2007 ◽

Vol 227 (2) ◽

pp. 607-618 ◽

Cited By ~ 41

Author(s):

Robert J. Redgwell ◽

Delphine Curti ◽

Cécile Gehin-Delval

Keyword(s):

Cell Wall ◽

Physicochemical Properties ◽

Wall Materials ◽

Cell Wall Materials

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Study on Improving the Fixation Rate of Impregnated Poplar Wood with Maltodextrin and 1,3-Dimethylol-4,5-Dihydroxyethyleneurea

Applied Sciences ◽

10.3390/app9163237 ◽

2019 ◽

Vol 9 (16) ◽

pp. 3237

Author(s):

Mingzhen Cai ◽

Zongying Fu ◽

Yingchun Cai ◽

Yue Zhang

Keyword(s):

Compressive Strength ◽

Cell Wall ◽

Fourier Transform ◽

Cell Walls ◽

Poplar Wood ◽

Fixation Rate ◽

Practical Applications ◽

Wall Materials ◽

Impregnated Wood ◽

Cell Wall Materials

The impregnation of poplar wood (Populus adenopoda Maxim) with 1,3-dimethylol-4,5-dihydroxyethyleneurea and maltodextrin and the effects of ZnCl2 and curing at 103 °C and 120 °C on the fixation rate and the leaching resistance of modified samples were investigated (103 °C curing, ZnCl2 + 103 °C curing, 120 °C curing, and ZnCl2 + 120 °C curing are denoted as 103, ZC-103, 120, and ZC-120, respectively), with the aim of improving the modification effect. The results showed that ZC-103 had the highest fixation rate, and its weight leaching ratio was higher than that of 120. Fourier-transform infrared spectroscopy showed that ZnCl2 did not affect the functional groups of the modified chemicals. The flexural strength and modulus and the compressive strength perpendicular to the grain were highest for ZC-103. In summary, ZC-103 exhibited the highest fixation rate, indicating that the hardener ZnCl2 bridged and increased the interfacial properties between the chemicals and cell walls and therefore increased the potential for macromolecule polycondensation between the chemicals and cell wall materials. This research paves the way for improving the fixation rate of impregnated wood and provides new insights into practical applications.

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Solubilisation of Ferulic Acid from Plant Cell Wall Materials in a Model Human Gut System

Biochemical Society Transactions ◽

10.1042/bst024384s ◽

1996 ◽

Vol 24 (3) ◽

pp. 384S-384S ◽

Cited By ~ 6

Author(s):

PAUL A KROON ◽

CRAIG B FAULDS ◽

PETER RYDEN ◽

GARY WILLIAMSON

Keyword(s):

Cell Wall ◽

Ferulic Acid ◽

Plant Cell ◽

Plant Cell Wall ◽

Human Gut ◽

Wall Materials ◽

Cell Wall Materials

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Pharmacognostic Studies of the Stem Bark of Enantia chlorantha Oliver (Annonaceae)

Nigerian Journal of Natural Products and Medicine ◽

10.4314/njnpm.v19i0.14 ◽

2015 ◽

Vol 19 ◽

pp. 122-125

Author(s):

TL Ohemu ◽

A Agunu ◽

DG Dafam ◽

PN Olotu

Keyword(s):

Cell Wall ◽

Calcium Oxalate ◽

Stem Bark ◽

Standard Methods ◽

Antiulcer Agents ◽

Physiochemical Parameters ◽

Microscopic Studies ◽

Wall Materials ◽

Cell Wall Materials

Enantia chlorantha Oliver (Annonaceae) is commonly known as African yellow wood used as hepatoprotective, antiviral, antimalarial, antibacterial and antiulcer agents. The study was aimed to investigate the pharmacognostic and physiochemical parameters of E. chlorantha stem bark. The macroscopy, microscopy and chemomicroscopy of E. chlorantha were carried out using standard methods. Cell wall materials, cell inclusions and other diagnostic characters, which can aid in the easy and proper identification of the plant, were identified. The microscopic studies revealed the presence of sclereids, fibres, medullary ray, and calcium oxalate prisms. The physiochemical evaluation of was done, in order to ascertain quality and purity. This study provides additional useful information needed for determination of its identity and quality that can be added as enrichment of the pharmacopoeia of the plant.Keywords: Pharmacognostic, Stem Bark, Enantia chlorantha

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Proliferation of Intrahyphal Hyphae Caused by Disruption ofcsmA, Which Encodes a Class V Chitin Synthase with a Myosin Motor-Like Domain in Aspergillus nidulans

Journal of Bacteriology ◽

10.1128/jb.181.12.3721-3729.1999 ◽

1999 ◽

Vol 181 (12) ◽

pp. 3721-3729 ◽

Cited By ~ 96

Author(s):

Hiroyuki Horiuchi ◽

Makoto Fujiwara ◽

Shuichi Yamashita ◽

Akinori Ohta ◽

Masamichi Takagi

Keyword(s):

Cell Wall ◽

Aspergillus Nidulans ◽

Wild Type Strain ◽

Hyphal Growth ◽

Chitin Synthase ◽

Calcofluor White ◽

Class V ◽

Myosin Motor ◽

Fungal Morphogenesis ◽

Novel Protein

ABSTRACT We have found that the Aspergillus nidulans csmA gene encodes a novel protein which consists of an N-terminal myosin motor-like domain and a C-terminal chitin synthase domain (M. Fujiwara, H. Horiuchi, A. Ohta, and M. Takagi, Biochem. Biophys. Res. Commun. 236:75–78, 1997). To clarify the roles of csmA in fungal morphogenesis, we constructed csmA null mutants. The growth rate of the mutant colonies was almost the same as that of the wild-type strain, but hyphal growth was severely inhibited when a chitin-binding reagent, Calcofluor white or Congo red, was added to the medium. Moreover, morphological abnormalities in tip growth and septum formation were identified microscopically. Proliferation of intracellular new hyphae, called intrahyphal hyphae, which behaved as intrinsic hyphae, was the most striking phenotypic feature among them. These phenotypes were not suppressed when the only chitin synthase domain of csmA was expressed under the control of thealcA promoter, whereas they were suppressed when the intact form of csmA was expressed. Therefore, it was concluded that the product of csmA (CsmA) has important roles in polarized cell wall synthesis and maintenance of cell wall integrity and that the myosin motor-like domain is indispensable for these functions.

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