Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 INTERMEDIUM-C, a modifier of lateral spikelet fertility in barley, is an ortholog of the maize domestication gene TEOSINTE BRANCHED 1.

Literature DB >> 21217754

INTERMEDIUM-C, a modifier of lateral spikelet fertility in barley, is an ortholog of the maize domestication gene TEOSINTE BRANCHED 1.

Luke Ramsay¹, Jordi Comadran, Arnis Druka, David F Marshall, William T B Thomas, Malcolm Macaulay, Katrin MacKenzie, Craig Simpson, John Fuller, Nicola Bonar, Patrick M Hayes, Udda Lundqvist, Jerome D Franckowiak, Timothy J Close, Gary J Muehlbauer, Robbie Waugh.

Abstract

The domestication of cereals has involved common changes in morphological features, such as seed size, seed retention and modification of vegetative and inflorescence architecture that ultimately contributed to an increase in harvested yield. In barley, this process has resulted in two different cultivated types, two-rowed and six-rowed forms, both derived from the wild two-rowed ancestor, with archaeo-botanical evidence indicating the origin of six-rowed barley early in the domestication of the species, some 8,600-8,000 years ago. Variation at SIX-ROWED SPIKE 1 (VRS1) is sufficient to control this phenotype. However, phenotypes imposed by VRS1 alleles are modified by alleles at the INTERMEDIUM-C (INT-C) locus. Here we show that INT-C is an ortholog of the maize domestication gene TEOSINTE BRANCHED 1 (TB1) and identify 17 coding mutations in barley TB1 correlated with lateral spikelet fertility phenotypes.

Entities: Chemical

Mesh：

Substances：
Plant Proteins

Year: 2011 PMID： 21217754 DOI： 10.1038/ng.745

Source DB: PubMed Journal: Nat Genet ISSN： 1061-4036 Impact factor: 38.330

23 in total

1. A new mathematical model for relative quantification in real-time RT-PCR.

Authors: M W Pfaffl
Journal: Nucleic Acids Res Date: 2001-05-01 Impact factor: 16.971

Review 2. Molecular diversity, structure and domestication of grasses.

Authors: E S Buckler; J M Thornsberry; S Kresovich
Journal: Genet Res Date: 2001-06 Impact factor: 1.588

3. The OsTB1 gene negatively regulates lateral branching in rice.

Authors: Taito Takeda; Yuko Suwa; Makoto Suzuki; Hidemi Kitano; Miyako Ueguchi-Tanaka; Motoyuki Ashikari; Makoto Matsuoka; Chiharu Ueguchi
Journal: Plant J Date: 2003-02 Impact factor: 6.417

4. Molecular evolution of the teosinte branched gene among maize and related grasses.

Authors: L Lukens; J Doebley
Journal: Mol Biol Evol Date: 2001-04 Impact factor: 16.240

5. An expression atlas of rice mRNAs and small RNAs.

Authors: Kan Nobuta; R C Venu; Cheng Lu; André Beló; Kalyan Vemaraju; Karthik Kulkarni; Wenzhong Wang; Manoj Pillay; Pamela J Green; Guo-liang Wang; Blake C Meyers
Journal: Nat Biotechnol Date: 2007-03-11 Impact factor: 54.908

6. The evolution of apical dominance in maize.

Authors: J Doebley; A Stec; L Hubbard
Journal: Nature Date: 1997-04-03 Impact factor: 49.962

7. Patterns of molecular evolution associated with two selective sweeps in the Tb1-Dwarf8 region in maize.

Authors: Letizia Camus-Kulandaivelu; Luis-Miguel Chevin; Christine Tollon-Cordet; Alain Charcosset; Domenica Manicacci; Maud I Tenaillon
Journal: Genetics Date: 2008-09-09 Impact factor: 4.562

8. The barley phytomer.

Authors: Brian P Forster; Jerome D Franckowiak; Udda Lundqvist; Jackie Lyon; Ian Pitkethly; William T B Thomas
Journal: Ann Bot Date: 2007-10 Impact factor: 4.357

9. Overexpression of the maize Teosinte Branched1 gene in wheat suppresses tiller development.

Authors: Janet M Lewis; Caroline A Mackintosh; Sanghyun Shin; Edward Gilding; Sasha Kravchenko; Gerald Baldridge; Richard Zeyen; Gary J Muehlbauer
Journal: Plant Cell Rep Date: 2008-04-05 Impact factor: 4.570

10. 'Green revolution' genes encode mutant gibberellin response modulators.

Authors: J Peng; D E Richards; N M Hartley; G P Murphy; K M Devos; J E Flintham; J Beales; L J Fish; A J Worland; F Pelica; D Sudhakar; P Christou; J W Snape; M D Gale; N P Harberd
Journal: Nature Date: 1999-07-15 Impact factor: 49.962

97 in total

1. A transposon in tb1 drove maize domestication.

Authors: Miltos Tsiantis
Journal: Nat Genet Date: 2011-10-27 Impact factor: 38.330

2. High resolution mapping of Dense spike-ar (dsp.ar) to the genetic centromere of barley chromosome 7H.

Authors: Fahimeh Shahinnia; Arnis Druka; Jerome Franckowiak; Michele Morgante; Robbie Waugh; Nils Stein
Journal: Theor Appl Genet Date: 2011-09-30 Impact factor: 5.699

Review 3. Evolution of crop species: genetics of domestication and diversification.

Authors: Rachel S Meyer; Michael D Purugganan
Journal: Nat Rev Genet Date: 2013-12 Impact factor: 53.242

4. FLOWERING LOCUS T3 Controls Spikelet Initiation But Not Floral Development.

Authors: Muhammad Aman Mulki; Xiaojing Bi; Maria von Korff
Journal: Plant Physiol Date: 2018-09-13 Impact factor: 8.340

5. A Trypsin Family Protein Gene Controls Tillering and Leaf Shape in Barley.

Authors: Lingzhen Ye; Yin Wang; Lizhi Long; Hao Luo; Qiufang Shen; Sue Broughton; Dianxing Wu; Xiaoli Shu; Fei Dai; Chengdao Li; Guoping Zhang
Journal: Plant Physiol Date: 2019-08-19 Impact factor: 8.340

6. Effect of population size and unbalanced data sets on QTL detection using genome-wide association mapping in barley breeding germplasm.

Authors: Hongyun Wang; Kevin P Smith; Emily Combs; Tom Blake; Richard D Horsley; Gary J Muehlbauer
Journal: Theor Appl Genet Date: 2011-09-07 Impact factor: 5.699

7. Genetic mapping of the labile (lab) gene: a recessive locus causing irregular spikelet fertility in labile-barley (Hordeum vulgare convar. labile).

Authors: Helmy M Youssef; Ravi Koppolu; Twan Rutten; Viktor Korzun; Patrick Schweizer; Thorsten Schnurbusch
Journal: Theor Appl Genet Date: 2014-02-22 Impact factor: 5.699