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Estimation of Direct Genetic and Maternal Effects for Production Traits of Iranian Hostein Cows Using Different Animal Models
AFLP Analyses of Genetic Variation in Iranian Fescue Accessions
AFLP Analyses of Genetic Variation in Iranian Fescue Accessions
AFLP Analyses of Genetic Variation in Iranian Fescue Accessions
Study of the Miscibility of Hard and Soft Segments of Optically Active Poly(amide-imide-ether-urethane) Copolymers based-L-Leucine with Different Soft Segments
Preparation and characterization of new thermally stable and optically active poly(ester-imide)s by direct polycondensation with thionyl chloride in pyridine
Preparation and Characterization of New Optically Active Poly(amide-imide)s Derived from N N-(4 4_Oxydiphthaloyl)-bis-(s)-( )-valine Diacid Chloride and Aromatic Diamines
Synthesis and Characterization of Novel Optically Active Poly(ether-urethane)s Modified by Copoly(amide-imide) Segments based on Amino Acid through Diisocyanate Route Influence of Reaction Parameters
Synthesis of Novel Optically Active Poly(ester imide)s by Direct Polycondensation Reaction Promoted by Tosyl Chloride in Pyridine in the Presence of N N-Dimethyformamide
Thermally Stable and Optically Active Poly(amide-imide)s Derived from 4 4 (Hexafluoroisopropylidene)-N N -bis-(phthaloyl-L-methionine)Diacid Chloride and Various Aromatic Diamines Synthesis and Characterization
Microwave Heating in Conjunction with Ionic Liquid as a Novel Method for the Fast Synthesis of Optically Active Poly(amideimide)s Derived from N N -(4 4 -Hexafluoroisopropylidenediphthaloyl)-bis-L-methionine and various aromatic diamines
Study on synthesis and characterization of novel optically active poly(amide-imide)s based on bis(p-aminobezoic acid)-N-trimellitylimido-S-valine via direct polycondensation
Preparation and Characterization of Novel Optically Active Poly(Amide-Ester-Imide)s Based on Bis(p-aminobezoic acid)-N-trimellitylimido-S-valine via Direct Polyesterification
Genetic variation in Iranian Mints on the bases of RAPd analysis
Studying the behavior of active mass drivers during an earthquake using discrete instantaneous optimal control method