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1.
The chromatin remodeller MdRAD5B enhances drought tolerance by coupling MdLHP1-mediated H3K27me3 in apple.
Plant Biotechnol J
; 22(3): 617-634, 2024 Mar.
Artículo
en Inglés
| MEDLINE | ID: mdl-37874929
2.
HISTONE DEACETYLASE 6 interaction with ABSCISIC ACID-INSENSITIVE 5 decreases apple drought tolerance.
Plant Physiol
; 193(4): 2711-2733, 2023 Nov 22.
Artículo
en Inglés
| MEDLINE | ID: mdl-37607253
3.
Global hypermethylation of the N6-methyladenosine RNA modification associated with apple heterografting.
Plant Physiol
; 193(4): 2513-2537, 2023 Nov 22.
Artículo
en Inglés
| MEDLINE | ID: mdl-37648253
4.
Histone deacetylase MdHDA6 is an antagonist in regulation of transcription factor MdTCP15 to promote cold tolerance in apple.
Plant Biotechnol J
; 21(11): 2254-2272, 2023 11.
Artículo
en Inglés
| MEDLINE | ID: mdl-37475182
5.
Advances in Plant Epigenome Editing Research and Its Application in Plants.
Int J Mol Sci
; 24(4)2023 Feb 08.
Artículo
en Inglés
| MEDLINE | ID: mdl-36834852
6.
Integrating ATAC-seq and RNA-seq Reveals the Dynamics of Chromatin Accessibility and Gene Expression in Apple Response to Drought.
Int J Mol Sci
; 23(19)2022 Sep 23.
Artículo
en Inglés
| MEDLINE | ID: mdl-36232500
7.
Genome-wide analysis of SET-domain group histone methyltransferases in apple reveals their role in development and stress responses.
BMC Genomics
; 22(1): 283, 2021 Apr 19.
Artículo
en Inglés
| MEDLINE | ID: mdl-33874904
8.
Integrative Analyses of Widely Targeted Metabolic Profiling and Transcriptome Data Reveals Molecular Insight into Metabolomic Variations during Apple (Malus domestica) Fruit Development and Ripening.
Int J Mol Sci
; 21(13)2020 Jul 07.
Artículo
en Inglés
| MEDLINE | ID: mdl-32645908
9.
Single-base methylome analysis reveals dynamic epigenomic differences associated with water deficit in apple.
Plant Biotechnol J
; 16(2): 672-687, 2018 02.
Artículo
en Inglés
| MEDLINE | ID: mdl-28796917
10.
Chromosome-scale reference genome provides insights into the genetic origin and grafting-mediated stress tolerance of Malus prunifolia.
Plant Biotechnol J
; 20(6): 1015-1017, 2022 06.
Artículo
en Inglés
| MEDLINE | ID: mdl-35348283
11.
Comprehending crystalline ß-carotene accumulation by comparing engineered cell models and the natural carotenoid-rich system of citrus.
J Exp Bot
; 63(12): 4403-17, 2012 Jul.
Artículo
en Inglés
| MEDLINE | ID: mdl-22611233
12.
Variation burst during dedifferentiation and increased CHH-type DNA methylation after 30 years of in vitro culture of sweet orange.
Hortic Res
; 2022 Jan 18.
Artículo
en Inglés
| MEDLINE | ID: mdl-35039837
13.
Phylogenetic and evolutionary analysis of NBS-encoding genes in Rutaceae fruit crops.
Mol Genet Genomics
; 285(2): 151-61, 2011 Feb.
Artículo
en Inglés
| MEDLINE | ID: mdl-21153735
14.
Dynamic changes in methylome and transcriptome patterns in response to methyltransferase inhibitor 5-azacytidine treatment in citrus.
DNA Res
; 24(5): 509-522, 2017 Oct 01.
Artículo
en Inglés
| MEDLINE | ID: mdl-28575160
15.
Genomic analyses of primitive, wild and cultivated citrus provide insights into asexual reproduction.
Nat Genet
; 49(5): 765-772, 2017 May.
Artículo
en Inglés
| MEDLINE | ID: mdl-28394353
16.
Improved hybrid de novo genome assembly of domesticated apple (Malus x domestica).
Gigascience
; 5(1): 35, 2016 08 08.
Artículo
en Inglés
| MEDLINE | ID: mdl-27503335
17.
Genome-wide identification of sweet orange (Citrus sinensis) histone modification gene families and their expression analysis during the fruit development and fruit-blue mold infection process.
Front Plant Sci
; 6: 607, 2015.
Artículo
en Inglés
| MEDLINE | ID: mdl-26300904
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