Extracellular matrix and wall composition are diverse in the organogenic and non-organogenic calli of Actinidia arguta

Popielarska-Konieczna, Marzena; Sala, Katarzyna; Abdullah, Mohib; Tuleja, Monika; Kurczyńska, Ewa

doi:10.1007/s00299-020-02530-2

Cited by 15 publications

(21 citation statements)

References 88 publications

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“…The epitope that is recognized by the LM20 antibody was present in all of the explant cell walls prior to their transfer to the induction medium as well as during the culture. No changes were observed in the occurrence of this epitope between the different explant cell types or culture time points, thus indicating that highly esterified pectins are an essential component of the cell walls of an explant, which is consistent with the literature data ( [55] and literature therein). It also indicates that this epitope is not a marker of any changes in the cell reprogramming for the carrot hypocotyl explant during the induction phase of SE.…”

Section: Spatio-temporal Changes In Pectins As Markers Of the State Osupporting

confidence: 91%

“…A similar pattern of the distribution of this epitope has been observed in the actively dividing cells during Triticum aestivum organogenesis [41]. In the embryogenic callus of Brachypodium, this epitope was detected in the embryogenic cells [30] and during the SE of T. nigresens [31], however, in the Arabidopsis explant [54] and in Actinidia arguta [55], it was not detected in the cells that were changing their fate. The results indicate that during the induction phase in a carrot explant, this epitope can be considered to be a marker of the cells that are reprogramming their fate.…”

Section: Spatio-temporal Changes Of the Agps As Markers Of The State supporting

confidence: 74%

“…Namely, cytological features such as dense cytoplasm, a high nucleus/cytoplasm ratio, an isodiametric cell shape, a spherically shaped nucleus with one or more nucleoli, small vacuoles, and thin cell walls are characteristics of pluripotent cells ( [56] and literature therein). Such features have been observed in cells of different origins during the acquisition of embryogenic potential ( [9,[54][55][56]77] and literature therein). In the studies presented here, the changes in the cell wall composition were related to the observed cytological features for the cells that were undergoing reprogramming.…”

Section: Cytological Identification Of the Explant Cells That Are Undmentioning

confidence: 82%

“…In the present work, only the epitope that is recognized by JIM11 can be postulated as being a marker of the detached cells. In the Brachypodium callus [30] and in the Actinidia arguta callus [55], this epitope was detected in the intercellular spaces. This result may indicate the involvement of extensins in increasing the strength of the walls, which was also found, among others, by Knox [19].…”

Section: Spatio-temporal Changes Of the Extensins As Markers Of The Smentioning

confidence: 94%

“…It is postulated that the JIM4 epitope may be a marker for all of the stages accompanying the acquisition of embryogenic state by cells during carrot SE [39]. The non-methyl esterified (LM19) and methyl-esterified (LM20) HG together with LM5, LM6, JIM11, JIM12, JIM8, and JIM16 epitopes were described as characteristic for endosperm-derived cells that undergo dedifferentiation during the Actinidia arguta culture in vitro [55]. It has also been shown that the pectic epitope that is recognized by the LM8 antibody was absent, regardless of the morphogenic capacity of the Actinidia arguta callus [55].…”

Section: Introductionmentioning

confidence: 99%

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Cell Wall Composition as a Marker of the Reprogramming of the Cell Fate on the Example of a Daucus carota (L.) Hypocotyl in Which Somatic Embryogenesis Was Induced

Kuczak

Kurczyńska

2020

IJMS

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Changes in the composition of the cell walls are postulated to accompany changes in the cell's fate. We check whether there is a relationship between the presence of selected pectic, arabinogalactan proteins (AGPs), and extensins epitopes and changes in cell reprogramming in order to answer the question of whether they can be markers accompanying changes of cell fate. Selected antibodies were used for spatio-temporal immunolocalization of wall components during the induction of somatic embryogenesis. Based on the obtained results, it can be concluded that (1) the LM6 (pectic), LM2 (AGPs) epitopes are positive markers, but the LM5, LM19 (pectic), JIM8, JIM13 (AGPs) epitopes are negative markers of cells reprogramming to the meristematic/pluripotent state; (2) the LM8 (pectic), JIM8, JIM13, LM2 (AGPs) and JIM11 (extensin) epitopes are positive markers, but LM6 (pectic) epitope is negative marker of cells undergoing detachment; (3) JIM4 (AGPs) is a positive marker, but LM5 (pectic), JIM8, JIM13, LM2 (AGPs) are negative markers for pericycle cells on the xylem pole; (4) LM19, LM20 (pectic), JIM13, LM2 (AGPs) are constitutive wall components, but LM6, LM8 (pectic), JIM4, JIM8, JIM16 (AGPs), JIM11, JIM12 and JIM20 (extensins) are not constitutive wall components; (5) the extensins do not contribute to the cell reprogramming.

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Section: Spatio-temporal Changes In Pectins As Markers Of the State Osupporting

confidence: 91%

Section: Spatio-temporal Changes Of the Agps As Markers Of The State supporting

confidence: 74%

Section: Cytological Identification Of the Explant Cells That Are Undmentioning

confidence: 82%

Section: Spatio-temporal Changes Of the Extensins As Markers Of The Smentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Cell Wall Composition as a Marker of the Reprogramming of the Cell Fate on the Example of a Daucus carota (L.) Hypocotyl in Which Somatic Embryogenesis Was Induced

Kuczak

Kurczyńska

2020

IJMS

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GSM2, a transaldolase, contributes to reactive oxygen species homeostasis in Arabidopsis

Zheng

Yang

et al. 2020

Plant Mol Biol

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Since Colombia is one of the countries with the highest production of carnations worldwide, it is of great economic importance for the flower sector to prevent the disease fusariosis, the main cause of crop losses, by acquiring resistant varieties to this vascular disease caused by Fusarium oxysporum f. sp. Dianthi (FOX). In order to make an approach to the comprehension and knowledge of the response of carnation varieties to the presence of FOX, the main objective of this degree thesis was to study the gene expression (mRNA) between susceptible and resistant varieties of carnation during the elicitation with such pathogen. For this, first, mRNA was extracted from de-differentiated carnation cells, cultured in vitro, under elicitated and non-elicitated conditions with silica membrane technology.Second, a transcriptomic library was obtained through RNA-seq sequencing as well as the relative abundance of each transcript. With this information, the variation of the gene response in terms of mRNA produced by susceptible and resistant varieties of carnation to FOX, was analyzed. Finally, groups of genes that could participate in the resistance phenotype in carnation varieties with the presence of FOX were detected.

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Effect of medium composition, genotype and age of explant on the regeneration of hexaploid plants from endosperm culture of tetraploid kiwiberry (Actinidia arguta)

Abdullah

Śliwińska

Góralski

et al. 2021

Plant Cell Tiss Organ Cult

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Endosperm, an ephemeral and storage tissue, serves as a source of nutrition and protection during embryo development and germination. It can be used for the cultivation of polyploid plants in vitro. Here, results of plant regeneration and acclimatization from the endosperm-derived calli of four cultivars of Actinidia arguta has been presented. Seeds excised from fresh fruit and dry seeds stored for one year served as the sources of endosperm explants of selected tetraploid cultivars of A. arguta. Callus Induction Medium (CIM; containing 0.25, 0.5, or 1 mg/l of TDZ) and Actinidia Endosperm Medium (AEM; containing 2 mg/l of 2,4-D and 5 mg/l of kinetin) were used to study the organogenic responses of the calli. On AEM, the source of explant did not significantly affect the rate of callus induction for any of the tested cultivars; no organogenic events were observed. In contrast, on CIM both the source of explants and the cultivar origin caused significant differences in callus formation and subsequent organogenic events. Histological and ultrastructural analyses revealed the adventitious nature of shoot bud formation on these media. The most efficient elongation of shoot buds was achieved after transferring organogenic calli with adventitious shoot buds to a medium supplemented with zeatin or meta-topolin. Robust root induction with minimal basal callus formation occurred on the medium with indole-3-acetic acid. Flow cytometric analysis revealed that the nuclear DNA content in the leaves of some regenerants was approximately 50 % higher (4.5 pg/2C) than that in leaves from the tetraploid seedlings (3.1 pg/2C),which confirmed that those regenerants originated from the endosperm. The regeneration of such hexaploid plants was more efficient when endosperm from fresh seeds served as an explant; therefore, fresh rather than dry seeds are recommended for endosperm-derived plant production. The hexaploid plants of A. arguta can serve as an important source of breeding material.

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Extracellular matrix and wall composition are diverse in the organogenic and non-organogenic calli of Actinidia arguta

Cited by 15 publications

References 88 publications

Cell Wall Composition as a Marker of the Reprogramming of the Cell Fate on the Example of a Daucus carota (L.) Hypocotyl in Which Somatic Embryogenesis Was Induced

Cell Wall Composition as a Marker of the Reprogramming of the Cell Fate on the Example of a Daucus carota (L.) Hypocotyl in Which Somatic Embryogenesis Was Induced

GSM2, a transaldolase, contributes to reactive oxygen species homeostasis in Arabidopsis

Effect of medium composition, genotype and age of explant on the regeneration of hexaploid plants from endosperm culture of tetraploid kiwiberry (Actinidia arguta)

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