FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2070800359> ?p ?o ?g. }

• W2070800359 endingPage "271" @default.
• W2070800359 startingPage "262" @default.
• W2070800359 abstract "Plant cells possess a potency to redifferentiate to other types of cells in response to external stimuli. The differentiation of mesophyll cells into tracheary elements (TEs) is an excellent example of redifferentiation occurring at the cellular level in vascular plants. In situ, vessels and tracheids are formed from TEs, which are differentiated from cells of the procambium of the root and shoot in primary xylem or from cells produced by the vascular cambium in secondary xylem (Torrey et al. 1971; Aloni 1987). In vitro, TEs can be induced from various types of cells, including phloem parenchyma cells of carrot roots (Mizuno et al. 1971), cortical cells of pea roots (Phillips and Torrey 1973), pith parenchyma cells of lettuce (Dalessandro and Roberts 1971), tuber parenchyma cells of Jerusalem artichoke (Minocha and Halperin 1974; Phillips and Dodds 1977), mesophyll cells of Zinnia (Kohlenbach and Schmidt 1975; Fukuda and Komamine 1980a), and epidermal cells of Zinnia leaves (Church and Galston 1989), by wounding and/or phytohormone application. TEs are characterized by the formation of a secondary cell wall with annular, spiral, reticulate, or pitted wall thickenings. At maturity, differentiating TEs lose their nuclei and cell contents, forming a hollow tube. The easy induction of differentiation and detection of differentiated cells by their morphological features offer a great advantage for the study of redifferentiation in vascular plants. Fukuda and Komamine (1 980a) established an in vitro experimental system in which single mesophyll cells of Zinnia can redifferentiate directly into TEs without cell division, based on the work of Kohlenbach and Schmidt (1975). The Zinnia system has been considered efficient for the study of redifferentiation into TEs, mainly because of high frequency, high synchrony, and other merits (see Appendix). Physiological, biochemical, and molecular markers have been found in Zinnia by which physiological stages of redifferentiation are defined. Such findings have contributed to recent progress in the study of TE differentiation (Fukuda 1989a, 1992b; Sugiyama and Komamine 1990; Fukuda et al. 1993). Therefore, I will review here recent work on redifferentiation of Zinnia mesophyll cells into TEs and discuss the regulation of redifferentiation." @default.
• W2070800359 created "2016-06-24" @default.
• W2070800359 creator A5068713582 @default.
• W2070800359 date "1994-05-01" @default.
• W2070800359 modified "2023-09-26" @default.
• W2070800359 title "Redifferentiation of Single Mesophyll Cells into Tracheary Elements" @default.
• W2070800359 cites W1493656119 @default.
• W2070800359 cites W1837991083 @default.
• W2070800359 cites W1899816374 @default.
• W2070800359 cites W1925868190 @default.
• W2070800359 cites W193921617 @default.
• W2070800359 cites W1952010372 @default.
• W2070800359 cites W1968613098 @default.
• W2070800359 cites W1970851071 @default.
• W2070800359 cites W1977101538 @default.
• W2070800359 cites W1980585989 @default.
• W2070800359 cites W1994697923 @default.
• W2070800359 cites W2006747860 @default.
• W2070800359 cites W2010659528 @default.
• W2070800359 cites W2014996211 @default.
• W2070800359 cites W2042962561 @default.
• W2070800359 cites W2047356351 @default.
• W2070800359 cites W2049580858 @default.
• W2070800359 cites W2057859661 @default.
• W2070800359 cites W2060676319 @default.
• W2070800359 cites W2067059094 @default.
• W2070800359 cites W2075726547 @default.
• W2070800359 cites W2080945065 @default.
• W2070800359 cites W2082220911 @default.
• W2070800359 cites W2085252569 @default.
• W2070800359 cites W2133622062 @default.
• W2070800359 cites W2155426773 @default.
• W2070800359 cites W2156114571 @default.
• W2070800359 cites W3118216774 @default.
• W2070800359 doi "https://doi.org/10.1086/297166" @default.
• W2070800359 hasPublicationYear "1994" @default.
• W2070800359 type Work @default.
• W2070800359 sameAs 2070800359 @default.
• W2070800359 citedByCount "48" @default.
• W2070800359 countsByYear W20708003592016 @default.
• W2070800359 countsByYear W20708003592017 @default.
• W2070800359 countsByYear W20708003592018 @default.
• W2070800359 crossrefType "journal-article" @default.
• W2070800359 hasAuthorship W2070800359A5068713582 @default.
• W2070800359 hasConcept C49799701 @default.
• W2070800359 hasConcept C59822182 @default.
• W2070800359 hasConcept C86803240 @default.
• W2070800359 hasConceptScore W2070800359C49799701 @default.
• W2070800359 hasConceptScore W2070800359C59822182 @default.
• W2070800359 hasConceptScore W2070800359C86803240 @default.
• W2070800359 hasIssue "3" @default.
• W2070800359 hasLocation W20708003591 @default.
• W2070800359 hasOpenAccess W2070800359 @default.
• W2070800359 hasPrimaryLocation W20708003591 @default.
• W2070800359 hasRelatedWork W2026728898 @default.
• W2070800359 hasRelatedWork W2036853137 @default.
• W2070800359 hasRelatedWork W2047134548 @default.
• W2070800359 hasRelatedWork W2065354352 @default.
• W2070800359 hasRelatedWork W2465941832 @default.
• W2070800359 hasRelatedWork W2514963845 @default.
• W2070800359 hasRelatedWork W2542668478 @default.
• W2070800359 hasRelatedWork W2979999271 @default.
• W2070800359 hasRelatedWork W3215139134 @default.
• W2070800359 hasRelatedWork W4247921259 @default.
• W2070800359 hasVolume "155" @default.
• W2070800359 isParatext "false" @default.
• W2070800359 isRetracted "false" @default.
• W2070800359 magId "2070800359" @default.
• W2070800359 workType "article" @default.