Genomic and small RNA sequencing of Miscanthus x giganteus shows the utility of sorghum as a reference genome sequence for Andropogoneae grasses. - Wikidata - wikimedia - TriplyDB

Genomic and small RNA sequencing of Miscanthus x giganteus shows the utility of sorghum as a reference genome sequence for Andropogoneae grasses.

Genomic and small RNA sequencing of Miscanthus x giganteus shows the utility of sorghum as a reference genome sequence for Andropogoneae grasses.

http://www.wikidata.org/entity/Q42776729

about

Identification of lignin genes and regulatory sequences involved in secondary cell wall formation in Acacia auriculiformis and Acacia mangium via de novo transcriptome sequencing Biofuel and energy crops: high-yield Saccharinae take center stage in the post-genomics era Phylogeny in defining model plants for lignocellulosic ethanol production: a comparative study of Brachypodium distachyon, wheat, maize, and Miscanthus x giganteus leaf and stem biomass Advances in the genetic dissection of plant cell walls: tools and resources available in Miscanthus High resolution genetic mapping by genome sequencing reveals genome duplication and tetraploid genetic structure of the diploid Miscanthus sinensis Transcriptional responses indicate maintenance of photosynthetic proteins as key to the exceptional chilling tolerance of C4 photosynthesis in Miscanthus × giganteus.Building a model: developing genomic resources for common milkweed (Asclepias syriaca) with low coverage genome sequencing.Building the sugarcane genome for biotechnology and identifying evolutionary trends.Transcriptome-based differentiation of closely-related Miscanthus lines.Profiling and identification of small rDNA-derived RNAs and their potential biological functions.Failure of androgenesis in Miscanthus × giganteus in vitro culture of cytologically unbalanced microspores The repetitive component of the sunflower genome as shown by different procedures for assembling next generation sequencing reads A detailed gene expression study of the Miscanthus genus reveals changes in the transcriptome associated with the rejuvenation of spring rhizomes.A framework genetic map for Miscanthus sinensis from RNAseq-based markers shows recent tetraploidy Field Guide to Plant Model Systems.De novo assembly of short sequence reads.Exploring giant plant genomes with next-generation sequencing technology.Molecular cloning and expression analysis of 13 NAC transcription factors in Miscanthus lutarioriparius.Genetic engineering of grass cell wall polysaccharides for biorefining A Sorghum bicolor expression atlas reveals dynamic genotype-specific expression profiles for vegetative tissues of grain, sweet and bioenergy sorghums.Loss of photosynthetic efficiency in the shade. An Achilles heel for the dense modern stands of our most productive C4 crops?Transcriptomics and proteomics reveal genetic and biological basis of superior biomass crop Miscanthus.Genetic variability and population structure of the potential bioenergy crop Miscanthus sinensis (Poaceae) in Southwest China based on SRAP markers.Natural variation and genetic analysis of the tiller angle gene MsTAC1 in Miscanthus sinensis.Enriching Genomic Resources and Transcriptional Profile Analysis of Miscanthus sinensis under Drought Stress Based on RNA Sequencing.Miscanthus sacchariflorus- biofuel parent or new weed?

P2860

Q21267182-F4BCAF41-AA9E-4B27-B277-19FE81CD57D8 Q27027421-945D2DD6-02C9-440A-88D8-D4069AED1A01 Q28654476-C5E97334-E5B8-49F4-884F-C78B24CA1FA6 Q28680682-93968A2F-C678-4931-82C8-7369D0D19F70 Q28731269-5BB04C76-1D5C-4661-982D-3A843F7CDCA4 Q33860186-AAE61BEA-9DD6-4512-A45A-17A8C255D746 Q33890010-1A100097-A26E-4876-AB83-157ED3770B13 Q34006694-7C691A5A-E6E9-4016-92D8-DCCD8F1C799F Q34130715-9578AB29-1A40-4D4D-BEB1-128C31C6F4BB Q34328342-31D8384A-7719-4842-837C-6FFDC1EB055E Q34793166-34B30177-4F6D-4E99-A697-2A01303F6A3F Q35007819-1259DA1A-951D-4EDE-90B6-760FA4108D57 Q35062733-A99C0331-1663-44F0-9A7A-B2BF95955CCE Q35968380-ECFD515A-0961-462D-8148-FD66280A7DA7 Q36157406-348F7621-42C0-4AD1-A52D-AE4581979245 Q37781227-57CCCE3C-0D2A-41B8-9B3C-A82C6D1362C0 Q37944178-9A290B5D-BCC6-4428-8670-BEC55095F2E8 Q39105946-050D9E4B-6C8A-4399-965D-2DD031F2537F Q39338152-AB65C951-B793-4573-9A30-CBE1490E8F2E Q41956809-5D9A7326-6AD8-4147-8E27-C623942F3320 Q42249111-0B87662D-47D9-4677-923E-F8C168E153C8 Q43749321-E74E85F6-8760-4AEB-A342-8A7C6609490B Q46848073-4D546EF3-1813-4F82-9785-CB8FB0780AFA Q46900987-7EB5CD51-D516-4007-B8DC-8B8C85E75BB8 Q48275094-E6647754-C591-4F6A-AAFD-30598016031C Q56446964-5A7CF3A4-BBB1-4C00-8982-CB32B12EE781

P2860

Genomic and small RNA sequencing of Miscanthus x giganteus shows the utility of sorghum as a reference genome sequence for Andropogoneae grasses.

http://www.wikidata.org/entity/Q42776729

description

2010 nî lūn-bûn

@nan

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

2010年论文

@zh

2010年论文

@zh-cn

name

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@en

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@nl

type

label

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@en

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@nl

prefLabel

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@en

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@nl

P1433

Q42776729-E3F33486-AFA7-43E0-AE3E-68F70F4FA907

P1476

Q42776729-80833B5B-29B0-40D0-B0E3-3463D14187BE

P2093

Q42776729-17943B28-6A00-4FF8-AC46-60A7E369E69B

Q42776729-48E346BB-F019-477C-AA4B-A34CFE4E23A8

Q42776729-4CA23F93-14F0-40BB-AD67-DF00EE6255B7

Q42776729-6ADF00AB-0D42-46FA-A816-B8BFC4998CDE

Q42776729-6E3B5772-097B-4786-B969-DC8258584DB9

Q42776729-7F783719-4990-4A61-B94E-CB58214C43A8

Q42776729-A80E7C86-E52E-44FA-8E05-979D906BB19E

Q42776729-B220928D-C358-4A53-8AB3-3D2B4A91B07C

Q42776729-F6AB4D51-4B8C-48F0-80BA-2D03DD674B3B

P2860

Q42776729-04D35362-0BD4-4FB2-B779-2F88C44DA301

Q42776729-0F837364-ABB2-47AF-8130-A9CAAD241038

Q42776729-25A4C9B4-E39A-4C2D-AFF8-B60929A77A3F

Q42776729-29D6BD20-8D4B-4498-89D6-53392BFC6925

Q42776729-35FE8744-67A6-4A04-BD1E-2A6C67D4A5CF

Q42776729-3EB23E00-749A-4E8F-A89C-72919F277CA2

Q42776729-44B83F38-DF84-49AD-A2A4-07C83933E82E

Q42776729-4FE06319-62FC-4537-8E59-D2004145657F

Q42776729-4FF85B7D-D693-4CA9-91AF-49A9DFD2F0ED

Q42776729-5094BBC8-B247-4119-8EFA-3015F2DCF5B8

P2888

Q42776729-4FEFA58F-348E-4B40-8316-2A3C37270D92

P304

Q42776729-961667C2-0D0E-49C8-95C3-D1BBD59B0F76

P31

Q42776729-326326D2-1FE6-4E3F-B6BB-BDDA13DB20E9

P356

Q42776729-47CBB7FC-8A4F-4FE1-B922-F9A005B5D100

P433

Q42776729-E91601FB-916B-435A-9959-E5C39B7401DD

P478

Q42776729-FBED3BD2-7C41-40B7-9A68-29F35A0A05B7

P50

Q42776729-44913631-DA23-4732-A459-7C78484DB1E8

Q42776729-49018D0D-9B3A-4668-A5CE-AF800B095883

Q42776729-5043D5F3-993E-4C2E-8252-BE076ECCF26E

P577

Q42776729-104FBB24-161C-45E4-A1F2-EF5BCDFFCA32

P5875

Q42776729-E737A581-2511-4651-98F5-A970BCC90C89

P6179

Q42776729-FE4D3549-CE87-46AC-B0C3-010F33AEF922

P698

Q42776729-C5EADF94-892A-490D-BF1B-7CE4309435F6

P932

Q42776729-5CC67FA6-FC18-4B18-9DF4-C9A69FD86551

P356

GB-2010-11-2-R12

P1433

P1476

Genomic and small RNA sequenci ...... nce for Andropogoneae grasses.

@en

P2093

Aru K Arumuganathan

http://www.w3.org/2001/XMLSchema#string

Emanuele De Paoli

http://www.w3.org/2001/XMLSchema#string

Isaac Ho

http://www.w3.org/2001/XMLSchema#string

Kankshita Swaminathan

http://www.w3.org/2001/XMLSchema#string

Magdy S Alabady

http://www.w3.org/2001/XMLSchema#string

Matthew E Hudson

http://www.w3.org/2001/XMLSchema#string

Pamela J Green

http://www.w3.org/2001/XMLSchema#string

Ray Ming

http://www.w3.org/2001/XMLSchema#string

Stephen P Moose

http://www.w3.org/2001/XMLSchema#string

P2860

Dendroscope: An interactive viewer for large phylogenetic trees

Sorghum genome sequencing by methylation filtration

The B73 Maize Genome: Complexity, Diversity, and Dynamics

The Sorghum bicolor genome and the diversification of grasses

Analysis of the genome sequence of the flowering plant Arabidopsis thaliana

Human-mouse alignments with BLASTZ

The TIGR Plant Repeat Databases: a collective resource for the identification of repetitive sequences in plants

BLAT--the BLAST-like alignment tool

MrBayes 3: Bayesian phylogenetic inference under mixed models

MRBAYES: Bayesian inference of phylogenetic trees

P2888

gb-2010-11-2-r12

P304

R12

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1186/GB-2010-11-2-R12

http://www.w3.org/2001/XMLSchema#string

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

11

http://www.w3.org/2001/XMLSchema#string

P50

Daniel S. Rokhsar

P577

2010-02-03T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

41403885

http://www.w3.org/2001/XMLSchema#string

P6179

1035892410

http://www.w3.org/2001/XMLSchema#string

P698

20128909

http://www.w3.org/2001/XMLSchema#string

P932

2872872

http://www.w3.org/2001/XMLSchema#string