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Items: 1 to 20 of 99

1.

Gene loci in maize influencing susceptibility to chilling dependent photoinhibition of photosynthesis.

Pimentel C, Davey PA, Juvik JA, Long SP.

Photosynth Res. 2005 Sep;85(3):319-26.

PMID:
16170634
2.

Association mapping for chilling tolerance in elite flint and dent maize inbred lines evaluated in growth chamber and field experiments.

Strigens A, Freitag NM, Gilbert X, Grieder C, Riedelsheimer C, Schrag TA, Messmer R, Melchinger AE.

Plant Cell Environ. 2013 Oct;36(10):1871-87. doi: 10.1111/pce.12096. Epub 2013 May 13.

3.

Genetic analysis of cold-tolerance of photosynthesis in maize.

Fracheboud Y, Jompuk C, Ribaut JM, Stamp P, Leipner J.

Plant Mol Biol. 2004 Sep;56(2):241-53.

PMID:
15604741
4.

Quantitative trait loci for early plant vigour of maize grown in chilly environments.

Presterl T, Ouzunova M, Schmidt W, Möller EM, Röber FK, Knaak C, Ernst K, Westhoff P, Geiger HH.

Theor Appl Genet. 2007 Apr;114(6):1059-70. Epub 2007 Mar 6.

PMID:
17340099
5.

Mapping of quantitative trait loci associated with chilling tolerance in maize (Zea mays L.) seedlings grown under field conditions.

Jompuk C, Fracheboud Y, Stamp P, Leipner J.

J Exp Bot. 2005 Apr;56(414):1153-63. Epub 2005 Feb 21.

PMID:
15723825
6.

QTL studies reveal little relevance of chilling-related seedling traits for yield in maize.

Leipner J, Jompuk C, Camp KH, Stamp P, Fracheboud Y.

Theor Appl Genet. 2008 Feb;116(4):555-62. doi: 10.1007/s00122-007-0690-2. Epub 2008 Jan 9.

PMID:
18185918
7.

Unravelling the genetic complexity of sorghum seedling development under low-temperature conditions.

Bekele WA, Fiedler K, Shiringani A, Schnaubelt D, Windpassinger S, Uptmoor R, Friedt W, Snowdon RJ.

Plant Cell Environ. 2014 Mar;37(3):707-23. doi: 10.1111/pce.12189. Epub 2013 Sep 22.

8.
9.

Association mapping for cold tolerance in two large maize inbred panels.

Revilla P, Rodríguez VM, Ordás A, Rincent R, Charcosset A, Giauffret C, Melchinger AE, Schön CC, Bauer E, Altmann T, Brunel D, Moreno-González J, Campo L, Ouzunova M, Álvarez Á, Ruíz de Galarreta JI, Laborde J, Malvar RA.

BMC Plant Biol. 2016 Jun 6;16(1):127. doi: 10.1186/s12870-016-0816-2.

10.

Mapping of quantitative trait locus associated with maize tolerance to high seed drying temperature.

Salgado KC, Von Pinho EV, Guimarães CT, Von Pinho RG, Ferreira CA, Andrade V.

Genet Mol Res. 2008;7(4):1319-26.

11.

Fine mapping of the qLOP2 and qPSR2-1 loci associated with chilling stress tolerance of wild rice seedlings.

Xiao N, Huang WN, Li AH, Gao Y, Li YH, Pan CH, Ji H, Zhang XX, Dai Y, Dai ZY, Chen JM.

Theor Appl Genet. 2015 Jan;128(1):173-85. doi: 10.1007/s00122-014-2420-x. Epub 2014 Nov 4.

PMID:
25367381
12.

Transcriptional responses indicate maintenance of photosynthetic proteins as key to the exceptional chilling tolerance of C4 photosynthesis in Miscanthus × giganteus.

Spence AK, Boddu J, Wang D, James B, Swaminathan K, Moose SP, Long SP.

J Exp Bot. 2014 Jul;65(13):3737-47. doi: 10.1093/jxb/eru209. Epub 2014 Jun 22.

13.

Identification of quantitative trait loci for cold-tolerance of photosynthesis in maize (Zea mays L.).

Fracheboud Y, Ribaut JM, Vargas M, Messmer R, Stamp P.

J Exp Bot. 2002 Sep;53(376):1967-77.

PMID:
12177137
14.
15.

Chilling and frost tolerance in Miscanthus and Saccharum genotypes bred for cool temperate climates.

Friesen PC, Peixoto MM, Busch FA, Johnson DC, Sage RF.

J Exp Bot. 2014 Jul;65(13):3749-58. doi: 10.1093/jxb/eru105. Epub 2014 Mar 18.

16.

QTL Mapping of Low-Temperature Germination Ability in the Maize IBM Syn4 RIL Population.

Hu S, Lübberstedt T, Zhao G, Lee M.

PLoS One. 2016 Mar 31;11(3):e0152795. doi: 10.1371/journal.pone.0152795. eCollection 2016.

17.

Chilling tolerance of Central European maize lines and their factorial crosses.

Bhosale SU, Rymen B, Beemster GT, Melchinger AE, Reif JC.

Ann Bot. 2007 Dec;100(6):1315-21. Epub 2007 Sep 18.

18.

Mapping of QTL associated with waterlogging tolerance during the seedling stage in maize.

Qiu F, Zheng Y, Zhang Z, Xu S.

Ann Bot. 2007 Jun;99(6):1067-81. Epub 2007 Apr 30.

19.

Mapping QTLs for opaque2 modifiers influencing the tryptophan content in quality protein maize using genomic and candidate gene-based SSRs of lysine and tryptophan metabolic pathway.

Babu BK, Agrawal PK, Saha S, Gupta HS.

Plant Cell Rep. 2015 Jan;34(1):37-45. doi: 10.1007/s00299-014-1685-5. Epub 2014 Sep 20.

PMID:
25236159
20.

Genetic dissection of Al tolerance QTLs in the maize genome by high density SNP scan.

Guimaraes CT, Simoes CC, Pastina MM, Maron LG, Magalhaes JV, Vasconcellos RC, Guimaraes LJ, Lana UG, Tinoco CF, Noda RW, Jardim-Belicuas SN, Kochian LV, Alves VM, Parentoni SN.

BMC Genomics. 2014 Feb 24;15:153. doi: 10.1186/1471-2164-15-153.

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