EC Number |
Source Tissue |
Reference |
---|
2.4.1.B52 | endosperm |
- |
759982 |
2.4.1.B52 | flower |
high expression level of FvXTH9 |
759955 |
2.4.1.B52 | fruit |
FvXTH9 is highly expressed in fully developed green fruit, whereas its expression level dropped in later stages |
759955 |
2.4.1.B52 | internode |
elongating |
759982 |
2.4.1.B52 | leaf |
- |
759982 |
2.4.1.B52 | leaf |
highest in brown, over-wintered leaves compared to young and mature leaves |
723279 |
2.4.1.B52 | more |
intercalary meristems and callus lack MLG |
723279 |
2.4.1.B52 | more |
no activity in Equisetum arvense strobili and total extracts of these organs, vegetative lateral shoot extracts of Equisetum arvense contain high MXE activity |
723279 |
2.4.1.B52 | more |
to confirm the transcriptome data, the expression pattern of FvXTH9 is examined by quantitative real-time PCR in fruit at different ripening stages as well as in leaf and flower tissues. FvXTH9 is highly expressed in fully developed green fruit, whereas its expression level dropped in later stages. A high expression level of FvXTH9 is also determined in flowers, whereas its mRNA abundance is very low in all other tissues investigated. The expression pattern of FvXTH6 during fruit development resembled that of FvXTH9. FvXTH9 shows the highest expression level in green receptacles |
759955 |
2.4.1.B52 | more |
transcriptional profiling, BdXTH8, along with the other three genes in the grass-specific clade, is expressed in tissues that accumulate high amounts of MLG. BdXTH8 is highly coexpressed with the transcription factor BdTHX2 in addition to BdTHX1. BdXTH8 and BdTHX2 both have higher expression in elongating internodes and elongating leaf tissue than that in endosperm, while BdTHX1 shows expression in elongating internodes and endosperm tissues |
759982 |