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Literature DB >> 17246801

Heterosis.

E M East¹.

Abstract

Year: 1936 PMID： 17246801 PMCID： PMC1208682

Source DB: PubMed Journal: Genetics ISSN： 0016-6731 Impact factor: 4.562

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7 in total

1. Chromosome Number and Morphology in Nicotiana VI: Chromosome Numbers of Forty Species.

Authors: T H Goodspeed
Journal: Proc Natl Acad Sci U S A Date: 1933-07 Impact factor: 11.205

2. Comparative Cyto-genetic Studies of Tetraploid Tomatoes from Different Origins.

Authors: E W Lindstrom; L M Humphrey
Journal: Genetics Date: 1933-05 Impact factor: 4.562

3. Cytology and Genetics of Crosses between Fourteen- and Seven-Chromosome Species of Wheat.

Authors: W P Thompson
Journal: Genetics Date: 1931-07 Impact factor: 4.562

4. An Experimental Study of Hybrid Vigor or Heterosis in Rats.

Authors: E A Livesay
Journal: Genetics Date: 1930-01 Impact factor: 4.562

5. Cytogenetic Behavior of Fertile Tetraploid Hybrids of NICOTIANA RUSTICA and NICOTIANA PANICULATA.

Authors: W R Singleton
Journal: Genetics Date: 1932-09 Impact factor: 4.562

6. Interspecific Hybridization in Nicotiana. Xii. the Amphidiploid RUSTICA-PANICULATA Hybrid; Its Origin and Cytogenetic Behavior.

Authors: W E Lammerts
Journal: Genetics Date: 1931-05 Impact factor: 4.562

7. Genetic Studies on the Protein Content of Maize.

Authors: E M East; D F Jones
Journal: Genetics Date: 1920-11 Impact factor: 4.562

7 in total

126 in total

1. Overdominant epistatic loci are the primary genetic basis of inbreeding depression and heterosis in rice. I. Biomass and grain yield.

Authors: Z K Li; L J Luo; H W Mei; D L Wang; Q Y Shu; R Tabien; D B Zhong; C S Ying; J W Stansel; G S Khush; A H Paterson
Journal: Genetics Date: 2001-08 Impact factor: 4.562

2. Overdominant epistatic loci are the primary genetic basis of inbreeding depression and heterosis in rice. II. Grain yield components.

Authors: L J Luo; Z K Li; H W Mei; Q Y Shu; R Tabien; D B Zhong; C S Ying; J W Stansel; G S Khush; A H Paterson
Journal: Genetics Date: 2001-08 Impact factor: 4.562

Review 3. In search of the molecular basis of heterosis.

Authors: James A Birchler; Donald L Auger; Nicole C Riddle
Journal: Plant Cell Date: 2003-10 Impact factor: 11.277

4. [Mono- and digene caused heterosis in Antirrhinum majus L].

Authors: H STUBBE
Journal: Z Indukt Abstamm Vererbungsl Date: 1953

5. A test for a metastable epigenetic component of heterosis using haploid induction in maize.

Authors: D L Auger; T S Ream; J A Birchler
Journal: Theor Appl Genet Date: 2003-11-21 Impact factor: 5.699

6. Use of a controlled-nutrient experiment to test heterosis hypotheses.

Authors: B Griffing
Journal: Genetics Date: 1990-11 Impact factor: 4.562

7. Repeat associated small RNAs vary among parents and following hybridization in maize.

Authors: Wesley T Barber; Wei Zhang; Hlaing Win; Kranthi K Varala; Jane E Dorweiler; Matthew E Hudson; Stephen P Moose
Journal: Proc Natl Acad Sci U S A Date: 2012-06-11 Impact factor: 11.205

8. Heterosis.

Authors: James A Birchler; Hong Yao; Sivanandan Chudalayandi; Daniel Vaiman; Reiner A Veitia
Journal: Plant Cell Date: 2010-07-09 Impact factor: 11.277

9. Genetic dissection of the maize kernel development process via conditional QTL mapping for three developing kernel-related traits in an immortalized F2 population.

Authors: Zhanhui Zhang; Xiangyuan Wu; Chaonan Shi; Rongna Wang; Shengfei Li; Zhaohui Wang; Zonghua Liu; Yadong Xue; Guiliang Tang; Jihua Tang
Journal: Mol Genet Genomics Date: 2015-09-29 Impact factor: 3.291

10. Hybrid mimics and hybrid vigor in Arabidopsis.

Authors: Li Wang; Ian K Greaves; Michael Groszmann; Li Min Wu; Elizabeth S Dennis; W James Peacock
Journal: Proc Natl Acad Sci U S A Date: 2015-08-17 Impact factor: 11.205