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Marais F, Marais A, McCallum B, Pretorius Z (2009) Transfer of leaf rust and stripe rust resistance
genes
Lr62
and
Yr42
from
Aegilops neglecta
Req. ex Bertol. to common wheat. Crop Sci
49:871-879
Martin GB, Bogdanove AJ, Sessa G (2003) Understanding the functions of plant disease resistance
proteins. Annu Rev Plant Biol 54:23-61
McIntosh RA, Yamazaki Y, Devos KM, Dubcovsky J, Rogers WJ, Appels R (2003) Catalogue of
gene symbols for wheat. In: Pogna NE, Romano M, Pogna EA, Galterio G (eds) Proceedings
of the 10th International Wheat Genetics Symposium, Vol. 4, associated CD-Rom, pp 1-34,
McIntosh RA, Yamazaki Y, Dubcovsky J, Rogers J, Morris F, Somers DJ, Appels R, Devos KM
(2010) Catalog of gene symbols for wheat. MacGene. http://www.shigen.nig.ac.jp/wheat/ko-
mugi/genes/download.jsp. Accessed 25 Mar 2013
Meyers BC, Chin DB, Shen KA, Sivaramakrishnan S, Lavelle DO, Zhang Z, Mitchelmore RW
(1998) The major resistance gene cluster in lettuce is highly duplicated and spans several
megabases. Plant Cell 10:1817-1832
Meyers BC, Kaushik S, Nandety RS (2005) Evolving disease resistance genes. Curr Opin Plant
Biol 8:129-134
Miedner T, Korzun V (2012) Marker-assisted selection for disease resistance in wheat and barley
breeding. Phytopathology 102:560-566
Miranda LM, Murphy JP, Marshall D, Leath S (2006)
Pm34
: a new powdery mildew resistance
gene transferred from
Aegilops tauschii
Coss. to common wheat (
Triticum aestivum
L.). Theor
Appl Genet 113:1497-1504
Miranda LM, Murphy JP, Marshall D, Cowger C, Leath S (2007) Chromosomal location of
Pm35
,
a novel
Aegilops tauschii
derived powdery mildew resistance gene introgressed into common
wheat (
Triticum aestivum
L.). Theor Appl Genet 114:1451-1456
Mirza JI, Ahmed I, Khanzada KA, Ahmed N, Rattu A, Fayyaz M, Ahmad Y, Harkro AA, Mujeeb-
Kazi A (2010) Local stem rust virulence in Pakistan and future breeding strategy. Pak J Bot
43(3):1999-2009
Mohler V, Bauer A, Bauer C, Flath K, Schweizer G, Hartl L (2011) Genetic analysis of powdery
mildew resistance in German winter wheat cultivar Cortez. Plant Breeding 130:35-40
Morel J, Dangl JL (1997) The hypersensitive response and the induction of cell death in plants.
Cell Death Differ 4:671-683
Mujeeb-Kazi A (2003) Wheat improvement facilitated by novel genetic diversity and in vitro tech-
nology. Plant Cell, Tissue and Organ Culture. 13:179−210
Mujeeb-Kazi A (2005) Wide crosses for durum wheat improvement. In: Roya C, Nachit MN,
Difonzo N, Araus JL, Pfeiffer WH, Slafer GA (eds) Durum wheat breeding: Current approach-
es and future strategies. The Haworth Press Inc., pp. 703−743
Mujeeb-Kazi A (2006) Utilization of genetic resources for bread wheat improvement. In: Singh
RJ, Jauhar PP (eds) CRC Series, pp 61-97
Mujeeb-Kazi A, Asiedu R (1990) Wide hybridization—potential of alien genetic transfers for
Triticum aestivum
improvement. In: Bajaj YPS (ed) Biotech in agriculture and forestry, Vol
13, Wheat, pp 111-127
Mujeeb-Kazi A, Hettel GP (1995) Utilizing wild grass biodiversity in wheat improvement:15 years
of wide cross research at CIMMYT. CIMMYT Report 2, pp 1-140
Mujeeb-Kazi A, Kimber G (1985) The production, cytology and practicality of wide hybrids in the
Triticeae
. Cereal Res Commun 13:111-124
Mujeeb-Kazi A, Roldan S, Suh DY, Sitch LA, Farooq S (1987) Production and cytogenetic analy-
sis of hybrids between
Triticum aestivum
and some caespitose
Agropyron
species. Genome
29:537-553
Mujeeb-Kazi A, Roldan S, Suh DY, Ter-Kuile N, Farooq S (1989) Production and cytogenetics
of
Triticum aestivum
L. hybrids with some rhizomatous
Agropyron
species. Theor Appl Genet
77:162-168
Mujeeb-Kazi A, Rosas V, Roldán S (1996a) Conservation of the genetic variation of
Triticum
tauschii
(Coss.) Schmalh. (
Aegilops squarrosa
auct. non L.) in synthetic hexaploid wheats
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