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Literature DB >> 25673779

Quantitative trait locus mapping reveals regions of the maize genome controlling root system architecture.

Paul R Zurek¹, Christopher N Topp¹, Philip N Benfey².

Abstract

The quest to determine the genetic basis of root system architecture (RSA) has been greatly facilitated by recent developments in root phenotyping techniques. Methods that are accurate, high throughput, and control for environmental factors are especially attractive for quantitative trait locus mapping. Here, we describe the adaptation of a nondestructive in vivo gel-based root imaging platform for use in maize (Zea mays). We identify a large number of contrasting RSA traits among 25 founder lines of the maize nested association mapping population and locate 102 quantitative trait loci using the B73 (compact RSA)×Ki3 (exploratory RSA) mapping population. Our results suggest that a phenotypic tradeoff exists between small, compact RSA and large, exploratory RSA.

Entities: Chemical Species

Mesh：

Year: 2015 PMID： 25673779 PMCID： PMC4378147 DOI： 10.1104/pp.114.251751

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

22 in total

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2. Root Architecture and Plant Productivity.

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3. Genetic design and statistical power of nested association mapping in maize.

Authors: Jianming Yu; James B Holland; Michael D McMullen; Edward S Buckler
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4. Genetic properties of the maize nested association mapping population.

Authors: Michael D McMullen; Stephen Kresovich; Hector Sanchez Villeda; Peter Bradbury; Huihui Li; Qi Sun; Sherry Flint-Garcia; Jeffry Thornsberry; Charlotte Acharya; Christopher Bottoms; Patrick Brown; Chris Browne; Magen Eller; Kate Guill; Carlos Harjes; Dallas Kroon; Nick Lepak; Sharon E Mitchell; Brooke Peterson; Gael Pressoir; Susan Romero; Marco Oropeza Rosas; Stella Salvo; Heather Yates; Mark Hanson; Elizabeth Jones; Stephen Smith; Jeffrey C Glaubitz; Major Goodman; Doreen Ware; James B Holland; Edward S Buckler
Journal: Science Date: 2009-08-07 Impact factor: 47.728

5. The genetic architecture of maize flowering time.

Authors: Edward S Buckler; James B Holland; Peter J Bradbury; Charlotte B Acharya; Patrick J Brown; Chris Browne; Elhan Ersoz; Sherry Flint-Garcia; Arturo Garcia; Jeffrey C Glaubitz; Major M Goodman; Carlos Harjes; Kate Guill; Dallas E Kroon; Sara Larsson; Nicholas K Lepak; Huihui Li; Sharon E Mitchell; Gael Pressoir; Jason A Peiffer; Marco Oropeza Rosas; Torbert R Rocheford; M Cinta Romay; Susan Romero; Stella Salvo; Hector Sanchez Villeda; H Sofia da Silva; Qi Sun; Feng Tian; Narasimham Upadyayula; Doreen Ware; Heather Yates; Jianming Yu; Zhiwu Zhang; Stephen Kresovich; Michael D McMullen
Journal: Science Date: 2009-08-07 Impact factor: 47.728

6. Maize association population: a high-resolution platform for quantitative trait locus dissection.

Authors: Sherry A Flint-Garcia; Anne-Céline Thuillet; Jianming Yu; Gael Pressoir; Susan M Romero; Sharon E Mitchell; John Doebley; Stephen Kresovich; Major M Goodman; Edward S Buckler
Journal: Plant J Date: 2005-12 Impact factor: 6.417

7. Combined MRI-PET dissects dynamic changes in plant structures and functions.

Authors: Siegfried Jahnke; Marion I Menzel; Dagmar van Dusschoten; Gerhard W Roeb; Jonas Bühler; Senay Minwuyelet; Peter Blümler; Vicky M Temperton; Thomas Hombach; Matthias Streun; Simone Beer; Maryam Khodaverdi; Karl Ziemons; Heinz H Coenen; Ulrich Schurr
Journal: Plant J Date: 2009-04-06 Impact factor: 6.417

Review 8. Root based approaches to improving nitrogen use efficiency in plants.

Authors: Trevor Garnett; Vanessa Conn; Brent N Kaiser
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9. Imaging and analysis platform for automatic phenotyping and trait ranking of plant root systems.

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10. Genomic and genetic analyses of diversity and plant interactions of Pseudomonas fluorescens.

Authors: Mark W Silby; Ana M Cerdeño-Tárraga; Georgios S Vernikos; Stephen R Giddens; Robert W Jackson; Gail M Preston; Xue-Xian Zhang; Christina D Moon; Stefanie M Gehrig; Scott A C Godfrey; Christopher G Knight; Jacob G Malone; Zena Robinson; Andrew J Spiers; Simon Harris; Gregory L Challis; Alice M Yaxley; David Harris; Kathy Seeger; Lee Murphy; Simon Rutter; Rob Squares; Michael A Quail; Elizabeth Saunders; Konstantinos Mavromatis; Thomas S Brettin; Stephen D Bentley; Joanne Hothersall; Elton Stephens; Christopher M Thomas; Julian Parkhill; Stuart B Levy; Paul B Rainey; Nicholas R Thomson
Journal: Genome Biol Date: 2009-05-11 Impact factor: 13.583

21 in total

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2. The Persistent Homology Mathematical Framework Provides Enhanced Genotype-to-Phenotype Associations for Plant Morphology.

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3. Three-Dimensional Time-Lapse Analysis Reveals Multiscale Relationships in Maize Root Systems with Contrasting Architectures.

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Review 4. Ten Years of the Maize Nested Association Mapping Population: Impact, Limitations, and Future Directions.

Authors: Joseph L Gage; Brandon Monier; Anju Giri; Edward S Buckler
Journal: Plant Cell Date: 2020-05-12 Impact factor: 11.277

5. Sorghum root-system classification in contrasting P environments reveals three main rooting types and root-architecture-related marker-trait associations.

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6. Shared Genetic Control of Root System Architecture between Zea mays and Sorghum bicolor.

Authors: Zihao Zheng; Stefan Hey; Talukder Jubery; Huyu Liu; Yu Yang; Lisa Coffey; Chenyong Miao; Brandi Sigmon; James C Schnable; Frank Hochholdinger; Baskar Ganapathysubramanian; Patrick S Schnable
Journal: Plant Physiol Date: 2019-11-18 Impact factor: 8.340

10. Root trait diversity, molecular marker diversity, and trait-marker associations in a core collection of Lupinus angustifolius.

Authors: Yinglong Chen; Fucheng Shan; Matthew N Nelson; Kadambot Hm Siddique; Zed Rengel
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