about
Atypical response regulators expressed in the maize endosperm transfer cells link canonical two component systems and seed biology.Two maize END-1 orthologs, BETL9 and BETL9like, are transcribed in a non-overlapping spatial pattern on the outer surface of the developing endosperm.Antisense-mediated depletion of a potato lipoxygenase reduces wound induction of proteinase inhibitors and increases weight gain of insect pestsLoss of a histidine residue at the active site of S-locus ribonuclease is associated with self-compatibility in Lycopersicon peruvianum.zmsbt1 and zmsbt2, two new subtilisin-like serine proteases genes expressed in early maize kernel development.Isolation and promoter characterization of barley gene Itr1 encoding trypsin inhibitor BTI-CMe: differential activity in wild-type and mutant lys3a endosperm.The promoter of ZmMRP-1, a maize transfer cell-specific transcriptional activator, is induced at solute exchange surfaces and responds to transport demands.CMP-KDO synthetase: a plant gene borrowed from gram-negative eubacteria.The maize transcription factor myb-related protein-1 is a key regulator of the differentiation of transfer cells.Evidence for factors regulating transfer cell-specific expression in maize endosperm.A protective role for the embryo surrounding region of the maize endosperm, as evidenced by the characterisation of ZmESR-6, a defensin gene specifically expressed in this region.ZmLrk-1, a receptor-like kinase induced by fungal infection in germinating seeds.Establishment of cereal endosperm expression domains: identification and properties of a maize transfer cell-specific transcription factor, ZmMRP-1.Lipoxygenase H1 gene silencing reveals a specific role in supplying fatty acid hydroperoxides for aliphatic aldehyde production.A maize homologue of the bacterial CMP-3-deoxy-D-manno-2-octulosonate (KDO) synthetases. Similar pathways operate in plants and bacteria for the activation of KDO prior to its incorporation into outer cellular envelopes.Transcriptional activation of the maize endosperm transfer cell-specific gene BETL1 by ZmMRP-1 is enhanced by two C2H2 zinc finger-containing proteins.The promoter of the gene Itr1 from barley confers a different tissue specificity in transgenic tobacco.Cloning and nucleotide sequence of two S-RNases from Lycopersicon peruvianum (L.) Mill.The maize transfer cell-specific type-A response regulator ZmTCRR-1 appears to be involved in intercellular signalling.Robust and efficient genotyping of factor V and prothrombin alleles using amplicon high-resolution melting and synthetic DNA controls: validation of the test with three different commercial chemistries.
P50
Q33349063-EECECB63-3C66-4B62-B26D-997F1655E82FQ33600381-D5B27F16-F949-4F77-BBAB-FC3356A07FA0Q34961491-5E8090F2-29AD-46EF-8A6E-826E9FB95B36Q35579363-3DC19D5E-29EC-4405-A93A-A25AA5F867C3Q36188187-51BF8087-1BAA-4699-BDCD-F88671C438BAQ36824012-017A0CD8-FDBA-4E03-AAAC-A2F51FD68002Q37376799-6D5C3764-2497-445C-A086-31E7A83B2AC6Q37875431-39510647-B528-4B54-B8AA-721776972B7FQ42456342-2D93A065-2A3F-45EF-9014-E977FE5D38F2Q42481099-C179348B-0790-43E0-A31B-7F911D602EDEQ42481398-21BC4243-388B-43E1-9896-41A80DD3CC0FQ42488174-09002224-85E6-4C18-A6DD-FB36C701BFBEQ42519091-BB641942-0EAF-415E-9E9C-2A8BF6E5F1F7Q43775931-4275B571-3C38-4013-B883-53DA331A42DBQ47858009-1C3258E1-56EC-49E5-9D34-077F921BF67FQ48068952-EFE326FA-9BAE-40B4-8E9E-22CA8A56F6E2Q48070569-FC51BA87-FF72-4B18-A702-79FB606DB0AEQ48082050-83440504-4E1F-464D-922C-553A0B988EF4Q48085200-F09FD855-5137-4133-A833-79B61A2AE72CQ54368953-61AFE5CE-02C8-4C85-B225-4EF2A982EEA3
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Joaquín Royo
@ast
Joaquín Royo
@en
Joaquín Royo
@es
Joaquín Royo
@nl
Joaquín Royo
@sl
type
label
Joaquín Royo
@ast
Joaquín Royo
@en
Joaquín Royo
@es
Joaquín Royo
@nl
Joaquín Royo
@sl
prefLabel
Joaquín Royo
@ast
Joaquín Royo
@en
Joaquín Royo
@es
Joaquín Royo
@nl
Joaquín Royo
@sl
P1053
L-4855-2015
P106
P21
P31
P3829
P496
0000-0002-8245-5791