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Transcriptional abundance is not the single force driving the evolution of bacterial proteinsMolecular characterization of a new wheat-Thinopyrum intermedium translocation line with resistance to powdery mildew and stripe rust.Chromosomal location and comparative genomics analysis of powdery mildew resistance gene Pm51 in a putative wheat-Thinopyrum ponticum introgression lineMolecular characterization of Sec2 loci in wheat--Secale africanum derivatives demonstrates genomic divergence of Secale species.MDC-Analyzer-facilitated combinatorial strategy for improving the activity and stability of halohydrin dehalogenase from Agrobacterium radiobacter AD1.Oligonucleotide Probes for ND-FISH Analysis to Identify Rye and Wheat ChromosomesTranscriptome Analysis of Interspecific Hybrid between Brassica napus and B. rapa Reveals Heterosis for Oil Rape ImprovementMolecular and cytogenetic identification of new wheat-Dasypyrum breviaristatum additions conferring resistance to stem rust and powdery mildew.Molecular and Cytogenetic Characterization of New Wheat-Dasypyrum breviaristatum Derivatives with Post-Harvest Re-Growth HabitIdentification of Novel Chromosomal Aberrations Induced by (60)Co-γ-Irradiation in Wheat-Dasypyrum villosum LinesMolecular cytogenetic characterization of Dasypyrum breviaristatum chromosomes in wheat background revealing the genomic divergence between Dasypyrum speciesTranscriptome comparative profiling of barley eibi1 mutant reveals pleiotropic effects of HvABCG31 gene on cuticle biogenesis and stress responsive pathways.The CentO satellite confers translational and rotational phasing on cenH3 nucleosomes in rice centromeres.Introduction of Thinopyrum intermedium ssp. trichophorum chromosomes to wheat by trigeneric hybridization involving Triticum, Secale and Thinopyrum genera.Characterization of wheat-Secale africanum chromosome 5R(a) derivatives carrying Secale specific genes for grain hardness.Adaptive microclimatic evolution of the dehydrin 6 gene in wild barley at "Evolution Canyon", Israel.Adaptive microclimatic structural and expressional dehydrin 1 evolution in wild barley, Hordeum spontaneum, at 'Evolution Canyon', Mount Carmel, Israel.Molecular and Cytogenetic Characterization of a Powdery Mildew-Resistant Wheat-Aegilops mutica Partial Amphiploid and Addition Line.Improvement of the thermostability and activity of halohydrin dehalogenase from Agrobacterium radiobacter AD1 by engineering C-terminal amino acids.Characterization of Stripe Rust Resistance Genes in the Wheat Cultivar Chuanmai45.The Aegilops tauschii genome reveals multiple impacts of transposons.New molecular markers and cytogenetic probes enable chromosome identification of wheat-Thinopyrum intermedium introgression lines for improving protein and gluten contents.Diversity and evolution of four dispersed repetitive DNA sequences in the genus Secale.DC-Analyzer-facilitated combinatorial strategy for rapid directed evolution of functional enzymes with multiple mutagenesis sites.Studies on genome relationship and species-specific PCR marker for Dasypyrum breviaristatum in Triticeae.Molecular Cytogenetic Characterization of New Wheat-Dasypyrum breviaristatum Introgression Lines for Improving Grain Quality of Wheat.Precise identification of wheat - Thinopyrum intermedium translocation chromosomes carrying resistance to wheat stripe rust in line Z4 and its derived progenies.Putative Thinopyrum intermedium-derived stripe rust resistance gene Yr50 maps on wheat chromosome arm 4BL.Cytogenetic and molecular markers for detecting Aegilops uniaristata chromosomes in a wheat background.Discrimination of repetitive sequences polymorphism in Secale cereale by genomic in situ hybridization-banding.Mutation Landscape of Base Substitutions, Duplications, and Deletions in the Representative Current Cholera Pandemic StrainAllelic analysis of stripe rust resistance genes on wheat chromosome 2BSCharacterization of New Wheat-Dasypyrum breviaristatum Introgression Lines with Superior Gene(s) for Spike Length and Stripe Rust ResistanceCharacterization, identification and evaluation of a set of wheat-Aegilops comosa chromosome linesNew ND-FISH-Positive Oligo Probes for Identifying Chromosomes in Wheat BackgroundsQTL Mapping and Validation of Adult Plant Resistance to Stripe Rust in Chinese Wheat Landrace Humai 15.Molecular cytogenetic characterization and disease resistance observation of wheat-Dasypyrum breviaristatum partial amphiploid and its derivativesInheritance and mapping of powdery mildew resistance gene Pm43 introgressed from Thinopyrum intermedium into wheatMolecular characterization of a wheat -Thinopyrum ponticum partial amphiploid and its derived substitution line for resistance to stripe rustMolecular cytogenetic characterization of a new wheat Secale africanum 2R(a)(2D) substitution line for resistance to stripe rust
P50
Q34892925-E60F4FBA-8CBA-4260-8484-47EEBEEDC587Q35016732-0501104B-209A-48FF-B40B-4EC6FEAAFF57Q35441840-93FA2198-A067-47AA-BB41-7B546F6887ACQ35585664-CD954054-4AD4-40EB-95D3-7D52BE8DDB8EQ35610519-F0463685-0C8E-4D00-A768-9F9E3B1797A8Q35632572-5F8309AB-9001-4A9B-8B9C-2F0CAC85357BQ36089261-401E3FDA-6BE1-4195-817D-462BAE6D553FQ36122487-DAC22BD9-238A-42B9-B4A4-0D454D32BAD8Q36401155-C471F8E8-B2D8-4C05-942C-3F8AFB90CBF2Q36404099-F144A90B-AAA9-46F6-825D-755B51B264B4Q36503606-D88E21DD-6AF0-40B1-A963-D5414BBEDABFQ37291313-6DEDE52B-EDAB-43DF-BB7D-766D59F5DF1CQ37395247-7E19247C-7690-48CC-A25D-40015714816BQ38750906-08FDA125-2DA0-4962-B957-F36B8D2352B8Q38907282-6C95A015-6AB4-43F4-B2FA-2E642C07A01FQ39614026-8C69990F-69C4-47A7-A12E-7E9830E58A79Q39614033-7CDDD526-C14D-441A-BF3D-E7F4623B8BBDQ40031977-50500A59-F25E-4FC7-BE65-CFE1036125A9Q40612492-6D534CA3-588E-4AFE-A161-A4C1F45BF82AQ40753646-F448208A-CDDB-4683-8D32-13C4F4075A74Q46257627-EAB209BD-9DD4-4A9E-BBA4-7EB718B19EC4Q46533892-DF3B75E8-5FC5-438F-B4F9-C60D28B19839Q48058856-43E4D7CB-50FA-48C1-973F-6D379FDA8EA1Q51030508-AEA005D7-3283-465D-AE0E-BE11C88B76CBQ51186016-201D1E98-53E5-44EB-8A19-61D7794671E9Q52608503-D67AC70B-820F-4E6A-8500-5B4820CE1F5BQ52689930-5FB0E792-6077-442F-A6F8-9C41CED4AD2FQ53140608-DABFE0BD-2C9F-42DA-911B-F7E96F1A10E7Q53366258-94D5B483-FF8A-436D-962F-445393A6615EQ53459425-84305A4C-BF70-4E44-A945-02FF36C98E58Q57094057-65C998DE-0484-44F6-9E8B-F33C668A323AQ57129812-146E5F66-447D-4380-A344-D5B889EBCCE1Q57279350-DC639FE0-E715-4008-8F68-11ACD51D4476Q64082898-7DB569F4-E414-4E2F-948E-1E6538CF7068Q64253075-1976B7AC-A7D8-43F5-9CC6-73D1B2CAEB90Q64986668-20F1A1CD-D5A1-4A40-B7A6-3DE4BE2A60ACQ80256466-7EAB2E0D-DD23-4D28-A61F-FEFCD6D7C5C4Q83340244-05898D0A-FE21-441E-9D93-CC1FB6C7CD78Q83710064-0E0706AD-60EC-4D3E-957B-B70CB07AB5CBQ84833383-BD72A770-7743-4E86-8835-43B081FF16E3
P50
description
researcher ORCID ID = 0000-0003-4617-1422
@en
wetenschapper
@nl
name
Zujun Yang
@ast
Zujun Yang
@en
Zujun Yang
@es
Zujun Yang
@nl
type
label
Zujun Yang
@ast
Zujun Yang
@en
Zujun Yang
@es
Zujun Yang
@nl
prefLabel
Zujun Yang
@ast
Zujun Yang
@en
Zujun Yang
@es
Zujun Yang
@nl
P106
P1153
14017016500
56171536400
P31
P496
0000-0003-4617-1422