Tijaban-10 is a semi dwarf wheat variety with high tillering capa

Tijaban-10 is a semi dwarf wheat variety with high tillering capacity, high yield, bold grain and improved drought tolerance. The

variety posses GSK461364 high protein content (13.29 %), high wet gluten (29.91%) and dry gluten (10.04%). The yield potential of Tijaban-10 was tested (1997-2008) in different yield trials (PYT, AYT) at AZRC, Quetta, micro plot trials and national trials over multiple locations in rainfed areas of Balochistan and Pakistan. The variety showed stability and wide adoptability under prevalent biotic (Rust and Insect/pest) and abiotic (drought and cold) stress of highland Balochistan. The line was tested over wide range of locations with extreme variation (cold and drought) in rainfed/Sailaba areas of Balochistan (Quetta, Mastung, Killa Saifullah and Loralai). Tijaban-10 produced

higher yield in National Uniform Wheat Yield Trial (NUWYT) conducted by National Coordinated Program (NARC) Islamabad during 2006-07 in rainfed areas of Pakistan. Tijaban-10 out yielded check cultivars (AZRI-96, Sariba-92 & Local White) during yield trials in different agro-ecological zones of highland Balochistan with an increase of 20-34% over check cultivars. Tijaban-10 also yielded higher in micro plot (2005-2007) yield trials and produced 25-50% increased yield as compared to check cultivars. Tijaban-10 produced 6 % higher grain yield in National Uniform Yield Trial (2006-07) than check genotypes in pooled analysis all over Pakistan with potential yield of 7000 kg ha(-1). Cediranib It showed 5MS-10MS susceptibility to yellow rust strain of highland Balochistan while it showed resistant to leaf rust when tested in natural conditions of rainfed areas. The variety possesses desirable quality characteristics such as better chapatti quality; improved protein (13.29%) and higher harvest index (30-38%). This variety showed high acceptability/popularity among the farming communities of Balochistan and a new

addition in genetic diversity of germplasm/cultivars already available in rainfed areas of Balochistan with significant improvement in farmers yield.”
“Precise motor control requires the ability to scale the parameters of movement. Theta oscillations across the cortex have been associated with find more changes in memory, attention, and sensorimotor processing. What has proven more elusive is pinpointing the region-specific frequency band oscillations that are associated with specific parameters of movement during the acceleration and deceleration phases. We report a study using 3D analytic techniques for high density electroencephalography that examines electrocortical dynamics while participants produce upper limb movements to different distances at varying rates. During fast ballistic movements, we observed increased theta band activity in the left motor area contralateral to the moving limb during the acceleration phase of the movement, and theta power correlated with the acceleration of movement.

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