ライフサイエンスコーパス: tracheary

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1 whether proteasome activity is required for tracheary element (TE) differentiation, the proteasome i

2 Using a transformable Pinus radiata tracheary element (TE) system as an experimental platfor

3 oyl-CoA reductase (CCR) in the Pinus radiata tracheary element (TE) system impacted both the metaboli

4 determine whether XCP1 could be involved in tracheary element autolysis, promoter activity and local

5 ession of PrCCoAOMT expression in P. radiata tracheary element cultures affected lignin content and c

6 ablish a tight linkage between the timing of tracheary element differentiation and rising SPS activit

7 ule characterized by a peptide ligand called TRACHEARY ELEMENT DIFFERENTIATION INHIBITORY FACTOR (TDI

8 Tracheary element differentiation requires strict coordi

9 ammed cell death during organ senescence and tracheary element differentiation.

10 A tracheary element expression pattern was detected for XC

11 reds of the genes involved in the process of tracheary element formation.

12 er, these findings suggest that XND1 affects tracheary element growth through regulation of secondary

13 ncluded a reduction in both plant height and tracheary element length and an increase in metaxylem re

14 xylem vessels and little or no expression of tracheary element marker genes.

15 raulic conductivity (Ks ), wood density, and tracheary element size from natural populations.

16 in, to reproducibly trans-differentiate into tracheary elements (TE) after 96 h, while in the presenc

17 sociated with lignification in both in vitro tracheary elements (TEs) and organs of zinnia (Zinnia el

18 Xylem tracheary elements (TEs) form hollow, sap-conducting tub

19 Postmortem lignification of xylem tracheary elements (TEs) has been debated for decades.

20 es, ZRNaseI and ZRNaseII, in differentiating tracheary elements (TEs) induced from isolated mesophyll

21 mechanisms regulating the autolysis of xylem tracheary elements (TEs) is important for understanding

22 , we characterize p48h-17 cDNA from in vitro tracheary elements (TEs) of Zinnia elegans which encodes

23 h ASL19 and ASL20 were expressed in immature tracheary elements (TEs), and the expression was depende

24 Plant vascular cells, or tracheary elements (TEs), rely on circumferential second

25 ant cell wall was examined in Zinnia elegans tracheary elements (TEs), which specialize by developing

26 The secondary cell walls of tracheary elements and fibers are rich in cellulose micr

27 cells can contribute to the lignification of tracheary elements and fibers.

28 characteristics with the secondary walls of tracheary elements and fibers.

29 wall modifications lead to the formation of tracheary elements and sieve tubes.

30 e key structural event in forming functional tracheary elements and we have identified over 50 partia

31 Secondary walls in fibers and tracheary elements constitute the most abundant biomass

32 ressed by mesophyll cells differentiating as tracheary elements in vitro.

33 three new ones identified in differentiating tracheary elements of Zinnia elegans.

34 not detected in the cytoplasm or vacuoles of tracheary elements or neighbors.

35 reveals that atao1 expression in developing tracheary elements precedes and overlaps with lignificat

36 ell culture of synchronously differentiating tracheary elements was used to identify three new expans

37 f Zinnia elegans L. cv Envy differentiate to tracheary elements when cultured in inductive medium con

38 expression of XND1 blocks differentiation of tracheary elements.

39 M NAC DOMAIN1 (XND1) is upregulated in xylem tracheary elements.

40 aseolus vulgaris), contained differentiating tracheary elements.

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