Your search keyword '"hypodermis"' showing total 10 results

1. Exogenous abscisic acid induces the formation of a suberized barrier to radial oxygen loss in adventitious roots of barley (Hordeum vulgare).

Author

Shiono, Katsuhiro and Matsuura, Haruka

Subjects

*ABSCISIC acid, *BARLEY, *METHYLENE blue, *HORDEUM, *ROOT formation, *ROOT growth, *OXYGEN, *WETLANDS

Abstract

Background and Aims Internal root aeration is essential for root growth in waterlogged conditions. Aerenchyma provides a path for oxygen to diffuse to the roots. In most wetland species, including rice, a barrier to radial oxygen loss (ROL) allows more of the oxygen to diffuse to the root tip, enabling root growth into anoxic soil. Most dryland crops, including barley, do not form a root ROL barrier. We previously found that abscisic acid (ABA) signalling is involved in the induction of ROL barrier formation in rice during waterlogging. Although rice typically does not form a tight ROL barrier in roots in aerated conditions, an ROL barrier with suberized exodermis was induced by application of exogenous ABA. Therefore, we hypothesized that ABA application could also trigger root ROL barrier formation with hypodermal suberization in barley. Methods Formation of an ROL barrier was examined in roots in different exogenous ABA concentrations and at different time points using cylindrical electrodes and Methylene Blue staining. Additionally, we evaluated root porosity and observed suberin and lignin modification. Suberin, lignin and Casparian strips in the cell walls were observed by histochemical staining. We also evaluated the permeability of the apoplast to a tracer. Key Results Application of ABA induced suberization and ROL barrier formation in the adventitious roots of barley. The hypodermis also formed lignin-containing Casparian strips and a barrier to the infiltration of an apoplastic tracer (periodic acid). However, ABA application did not affect root porosity. Conclusions Our results show that in artificial conditions, barley can induce the formation of ROL and apoplastic barriers in the outer part of roots if ABA is applied exogenously. The difference in ROL barrier inducibility between barley (an upland species) and rice (a wetland species) might be attributable to differences in ABA signalling in roots in response to waterlogging conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Caenorhabditis elegans ASPP homolog APE-1 is a junctional protein phosphatase 1 modulator.

Author

Beacham, Gwendolyn M., Wei, Derek T., Beyrent, Erika, Ying Zhang, Jian Zheng, Camacho, Mari M. K., Florens, Laurence, and Hollopeter, Gunther

Subjects

*AMINO acid metabolism, *SKIN diseases, *IN vivo studies, *GENETIC mutation, *CAENORHABDITIS elegans, *GENETIC testing, *PRECIPITIN tests, *CELL communication, *PROTEOMICS, *MASS spectrometry, *EPIDERMIS, *ESTERASES, *MEMBRANE proteins

Abstract

How serine/threonine phosphatases are spatially and temporally tuned by regulatory subunits is a fundamental question in cell biology. Ankyrin repeat, SH3 domain, proline-rich-region-containing proteins are protein phosphatase 1 catalytic subunit binding partners associated with cardiocutaneous diseases. Ankyrin repeat, SH3 domain, proline-rich-region-containing proteins localize protein phosphatase 1 catalytic subunit to cell-cell junctions, but how ankyrin repeat, SH3 domain, proline-rich-region-containing proteins localize and whether they regulate protein phosphatase 1 catalytic subunit activity in vivo is unclear. Through a Caenorhabditis elegans genetic screen, we find that loss of the ankyrin repeat, SH3 domain, proline-rich-region-containing protein homolog, APE-1, suppresses a pathology called "jowls," providing us with an in vivo assay for APE-1 activity. Using immunoprecipitations and mass spectrometry, we find that APE-1 binds the protein phosphatase 1 catalytic subunit called GSP-2. Through structure-function analysis, we discover that APE-1's N-terminal half directs the APE-1-GSP-2 complex to intercellular junctions. Additionally, we isolated mutations in highly conserved residues of APE-1's ankyrin repeats that suppress jowls yet do not preclude GSP-2 binding, implying APE-1 does more than simply localize GSP-2. Indeed, in vivo reconstitution of APE-1 suggests the ankyrin repeats modulate phosphatase output, a function we find to be conserved among vertebrate homologs. [ABSTRACT FROM AUTHOR]

Published

2022

3. Specific collagens maintain the cuticle permeability barrier in Caenorhabditis elegans.

Author

Sandhu, Anjali, Badal, Divakar, Sheokand, Riya, Tyagi, Shalini, and Singh, Varsha

Subjects

*COLLAGEN, *PYRIDINE, *CAENORHABDITIS elegans, *PERMEABILITY, *ANTIOXIDANTS, *CELL receptors, *IMIDAZOLES, *TRANSCRIPTION factors, *AMINO acids, *MACROLIDE antibiotics

Abstract

Collagen-enriched cuticle forms the outermost layer of skin in nematode Caenorhabditis elegans. The nematode's genome encodes 177 collagens, but little is known about their role in maintaining the structure or barrier function of the cuticle. In this study, we found six permeability determining (PD) collagens. Loss of any of these PD collagens--DPY-2, DPY-3, DPY-7, DPY-8, DPY-9, and DPY-10--led to enhanced susceptibility of nematodes to paraquat (PQ) and antihelminthic drugs- levamisole and ivermectin. Upon exposure to PQ, PD collagen mutants accumulated more PQ and incurred more damage and death despite the robust activation of antioxidant machinery. We find that BLMP-1, a zinc finger transcription factor, maintains the barrier function of the cuticle by regulating the expression of PD collagens. We show that the permeability barrier maintained by PD collagens acts in parallel to FOXO transcription factor DAF-16 to enhance survival of insulin-like receptor mutant, daf-2. In all, this study shows that PD collagens regulate cuticle permeability by maintaining the structure of C. elegans cuticle and thus provide protection against exogenous toxins. [ABSTRACT FROM AUTHOR]

Published

2021

4. Performance of ultra-high-frequency ultrasound in the evaluation of skin involvement in systemic sclerosis: a preliminary report.

Author

Naredo, Esperanza, Pascau, Javier, Damjanov, Nemanja, Lepri, Gemma, Gordaliza, Pedro M, Janta, Iustina, Ovalles-Bonilla, Juan Gabriel, López-Longo, Francisco Javier, and Matucci-Cerinic, Marco

Subjects

*ANTHROPOMETRY, *SCIENTIFIC observation, *SKIN, *SYSTEMIC scleroderma, *ULTRASONIC imaging, *PILOT projects, *INTER-observer reliability, *CROSS-sectional method, *DESCRIPTIVE statistics, *INTRACLASS correlation

Abstract

Objective High frequency ultrasound allows visualization of epidermis, dermis and hypodermis, precise measurement of skin thickness, as well as assessment of skin oedema, fibrosis and atrophy. The aim of this pilot cross-sectional observational study was to assess the performance and multiobserver variability of ultra-high-frequency (UHF) (50 MHz) ultrasound (US) in measuring skin thickness as well as the capacity of UHF-derived skin features to differentiate SSc patients from healthy controls. Methods Twenty-one SSc patients (16 limited and five diffuse SSc) and six healthy controls were enrolled. All subjects underwent US evaluation by three experts at three anatomical sites (forearm, hand and finger). Dermal thickness was measured and two rectangular regions of interest, one in dermis and one in hypodermis, were established for texture feature analysis. Results UHF-US allowed a precise identification and measurement of the thickness of the dermis. The dermal thickness in the finger was significantly higher in patients than in controls (P < 0.05), while in the forearm it was significantly lower in patients than in controls (P < 0.001). Interobserver variability for dermal thickness was good to excellent [forearm intraclass correlation coefficient (ICC) = 0.754; finger ICC = 0.699; hand ICC = 0.602]. Texture computed analysis of dermis and hypodermis was able to discriminate between SSc and healthy subjects (area under the curve >0.7). Conclusion These preliminary data show that skin UHF-US allows a very detailed imaging of skin layers, a reliable measurement of dermal thickness, and a discriminative capacity between dermis and hypodermis texture features in SSc and healthy subjects. [ABSTRACT FROM AUTHOR]

Published

2020

5. Cell type-specific gene expression underpins remodelling of cell wall pectin in exocarp and cortex during apple fruit development.

Author

Collins, Patrick P, O'donoghue, Erin M, Rebstock, Ria, Tiffin, Heather R, Sutherland, Paul W, Schröder, Roswitha, McAtee, Peter A, Prakash, Roneel, Ireland, Hilary S, Johnston, Jason W, Atkinson, Ross G, Schaffer, Robert J, Hallett, Ian C, and Brummell, David A

Subjects

*FRUIT development, *GENE expression, *PECTINS, *FRUIT ripening, *APPLES, *RNA sequencing, *CELL growth, *APPLE varieties

Abstract

In apple (Malus × domestica) fruit, the different layers of the exocarp (cuticle, epidermis, and hypodermis) protect and maintain fruit integrity, and resist the turgor-driven expansion of the underlying thin-walled cortical cells during growth. Using in situ immunolocalization and size exclusion epitope detection chromatography, distinct cell type differences in cell wall composition in the exocarp were revealed during apple fruit development. Epidermal cell walls lacked pectic (1→4)-β- d -galactan (associated with rigidity), whereas linear (1→5)-α- l -arabinan (associated with flexibility) was exclusively present in the epidermal cell walls in expanding fruit and then appeared in all cell types during ripening. Branched (1→5)-α- l -arabinan was uniformly distributed between cell types. Laser capture microdissection and RNA sequencing (RNA-seq) were used to explore transcriptomic differences controlling cell type-specific wall modification. The RNA-seq data indicate that the control of cell wall composition is achieved through cell-specific gene expression of hydrolases. In epidermal cells, this results in the degradation of galactan side chains by possibly five β-galactosidases (BGAL2, BGAL7, BGAL10, BGAL11, and BGAL103) and debranching of arabinans by α-arabinofuranosidases AF1 and AF2. Together, these results demonstrate that flexibility and rigidity of the different cell layers in apple fruit during development and ripening are determined, at least in part, by the control of cell wall pectin remodelling. [ABSTRACT FROM AUTHOR]

Published

2019

6. Leaf anatomical features and their implications for the systematics of dragon’s blood, Croton section Cyclostigma (Euphorbiaceae).

Author

Feio, Ana Carla, Meira, Renata M S A, and Riina, Ricarda

Subjects

*EUPHORBIACEAE, *LEAF anatomy, *TRICHOMES, *NECTARIES, *PLANT classification

Abstract

Establishing species limits in clades in Croton using characters from external morphology and common molecular markers has proved cumbersome, especially in Croton section Cyclostigma, a group of 50 Neotropical arborescent species commonly known as dragon’s blood. Given this, we explored leaf and shoot apex anatomical characters for their utility in distinguishing species or groups of species in this section. We analysed 90 specimens belonging to section Cyclostigma and 14 specimens from related groups (sections Adenophylli , Cupreati and Sampatik), recording and describing 45 qualitative leaf characters. These characters were assembled into a matrix and analysed using statistical clustering methods based on similarity. Our results show that trichomes are one of the most diverse and variable anatomical features among the studied specimens. Novel anatomical features for Croton include the presence of a hypodermis and two previously unreported types of non-glandular trichomes. Although we did not detect a single anatomical character uniting section Cyclostigma , combinations of anatomical characters were useful to establish species limits and taxonomic identities within this section. [ABSTRACT FROM AUTHOR]

Published

2018

7. Comparative vegetative anatomy and systematics of the Oncidiinae (Maxillarieae, Orchidaceae).

Author

Stern, William Louis and Carlsward, Barbara S.

Subjects

*CLADISTIC analysis, *PLANT anatomy, *ORCHIDS, *VEGETATION classification, *PLANT classification, *PLANT species, *PLANT cells & tissues

Abstract

Subtribe Oncidiinae comprises a vegetatively heterogeneous assemblage of species that has persistently been incapable of organization. Anatomy was considered to be a possible means to resolve the perplexity of relationships amongst the constituent taxa. The consistent occurrence of a foliar hypodermis, homogeneous mesophyll, conical silica bodies in stegmata, and ubiquitous fibre bundles in leaves provides a matrix for linking the taxa, as do the parenchymatous pith and O-thickened endodermal cell walls in roots. However, the strict consensus of the 40 genera studied was completely unresolved, suggesting that vegetative characters alone are insufficient to assess the relationships amongst these taxa, a conclusion also reached for the remainder of Maxillarieae. © 2006 The Linnean Society of London, Botanical Journal of the Linnean Society, 2006, 152, 91–107. [ABSTRACT FROM AUTHOR]

Published

2006

8. Water uptake by roots of Hordeum marinum: formation of a barrier to radial O2 loss does not affect root hydraulic conductivity.

Author

Garthwaite, Alaina J., Steudle, Ernst, and Colmer, Timothy D.

Subjects

*HORDEUM, *PLANT-water relationships, *SOIL permeability, *PLANT roots, *PLANT growth

Abstract

The adventitious roots of Hordeum marinum grown in stagnant deoxygenated solution contain a barrier to radial O2 loss (ROL) in basal zones, whereas roots of plants grown in aerated solution do not. The present experiments assessed whether induction of the barrier to ROL influences root hydraulic conductivity (Lpr). Wheat (Triticum aestivum) was also studied since, like H. marinum, this species forms aerenchyma in stagnant conditions, but does not form a barrier to ROL. Plants were grown in either aerated or stagnant, deoxygenated nutrient solution for 21–28 d. Root-sleeving O2 electrodes were used to assess patterns of ROL along adventitious roots, and a root-pressure probe and a pressure chamber to measure Lpr for individual adventitious roots and whole root systems, respectively. Lpr, measured under a hydrostatic pressure gradient, was 1.8-fold higher for individual roots, and 5.6-fold higher for whole roots systems, in T. aestivum than H. marinum. However, there was no difference in Lpr between the two species when measured under an osmotic driving force, when water moved from cell to cell rather than apoplastically. Root-zone O2 treatments during growth had no effect on Lpr for either species (measured in aerobic solution). It is concluded that induction of the barrier to ROL in H. marinum did not significantly affect the hydraulic conductivity of either individual adventitious roots or of the whole root system. [ABSTRACT FROM PUBLISHER]

Published

2006

9. Epifluorescent and Histochemical Aspects of Shoot Anatomy of Typha latifolia L., Typha angustifolia L. and Typha glauca Godr.

Author

MCMANUS, H. A., SEAGO JR., J. L., and MARSH, L. C.

Subjects

TYPHA latifolia, LEAVES, EPIDERMIS, LAMINA epithelialis, PLANT species

Abstract

Using epifluorescent and histochemical techniques, we examined anatomical differences in the shoot organs of Typha latifolia, T. angustifolia and T. glauca. The leaf lamina of T. latifolia and T. glauca had enlarged epidermal cells and a thickened cuticle above the subepidermal vascular bundles; that of T. angustifolia lacked these characteristics. Leaf sheaths were similar among the species and all lacked the epidermal thickenings found in the lamina. The fertile stems had typical scattered vascular bundles with a band of fibres that was most prominent in T. glauca. The sterile stems were only 1 cm in length and contained a multiseriate hypodermis and a uniseriate endodermis over part of their length. The rhizomes were similar except for a pronounced band of fibres surrounding the central core in T. angustifolia. The rhizome was also characterized by an outer cortical region with a large multiseriate hypodermis/exodermis and a uniseriate endodermis with Casparian bands, suberin lamellae and secondarily thickened walls. [ABSTRACT FROM PUBLISHER]

Published

2002

10. Comparative Stem Anatomy and Systematics ofEriosyce sensu lato(Cactaceae).

Author

NYFFELER, RETO and EGGLI, URS

Subjects

CACTUS, EPIDERMIS, PLANT species

Abstract

The genusEriosyceas circumscribed by Kattermann (Succulent Plant Research1: 1–176, 1994) comprises six subsections with 33 species and 38 heterotypic infraspecific taxa and is restricted in distribution to Chile and NW Argentina. A total of 19 anatomical and gross morphological characters were studied from stem material of 27 taxa ofEriosyceand six outgroup taxa from the generaAustrocactus,Copiapoa,Corryocactus,EulychniaandNeowerdermannia(all from the tribe Notocacteae of subfamily Cactoideae). Comparisons between field-collected and glasshouse-cultivated plant material, as well as comparisons between samples from different positions on the stem, allowed an assessment of the variability of various characters.A detailed cladistic investigation with different character composition and character coding was conducted to check for combinations of characters that support a number of different clades.Eriosycesubsect.Chileosyce(includingE. napinaandE. odieri, but excludingE. laui) andE.subsect.Neoporteriaare very well characterized by a number of the attributes investigated, such as a papillate or completely flat epidermal relief, a very soft and strongly mucilaginous cortex, or a tuberculate stem with the podaria arranged in helical lines. The usefulness of the anatomical and morphological data was examined further by a cladistic analysis of a subgroup of 21 taxa supplemented with data on flowers, fruits and seeds (data from published sources). The present circumscription ofEriosyce(includingHorridocactus,Neoporteria, andThelocephala) is not seriously questioned by these cladistic analyses, with the possible exception ofIslaya. The position ofE. lauiremains unresolved.Copyright 1997 Annals of Botany Company [ABSTRACT FROM AUTHOR]

Published

1997