258513-95-0Relevant academic research and scientific papers
Optically active compound and photosensitive resin composition
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, (2008/06/13)
A photoactive compound is used in combination with a photosensitizer, represented by the following formula (1): A?[(J)m?(X-Pro)]n ??(1) wherein A represents a hydrophobic unit comprising at least one kind of hydrophobic groups selected from a hydrocarbon group and a heterocyclic group, J represents a connecting group, X-Pro represents a hydrophilic group protected by a protective group Pro which is removable by light exposure, m represents 0 or 1, and n represents an integer of not less than 1. The protective group Pro may be removable by light exposure in association with the photosensitizer (especially, a photo acid generator), or may be a hydrophobic protective group. The hydrophilic group may be a hydroxyl group or a carboxyl group. The photoactive compound has high sensitivity to a light source of short wavelength beams, for resist application, therefore, the photoactive compound is advantageously used for forming a pattern with high resolution.
β1- and β2-adrenoceptor antagonist activity of a series of para- substituted N-isopropylphenoxypropanolamines
Louis, Simon N.,Nero, Tracy L.,Iakovidis, Dimitri,Colagrande, Felicia M.,Jackman, Graham P.,Louis, William J.
, p. 919 - 937 (2007/10/03)
To further explore the structure-activity relationships of β- adrenoceptor (β-AR) antagonists, a series of 25 para-substituted N- isopropylphenoxy-propanolamines were synthesised, nine of which are new compounds. All have been examined for their ability to antagonise β1-ARs in rat atria and β2-ARs in rat trachea. Substitution in the para-position of the phenyl ring is thought to confer β3-specificity and the selectivity of these compounds for the β1-AR ranges from 1.5-234. None of the compounds tested were selective for the β2-AR. Of the 25 compounds studied, 22 had reasonable (pA2 > 7) potencies for the rat β1-AR. Only compound 1 displayed reasonable (pA2 > 7) potency for the rat β2-AR. Twenty two compounds were used as the training set for comparative molecular field analysis (CoMFA) of antagonist potency (pA2) at the rat β1- and β2-ARs. The inclusion of a number of additional physical characteristics improved the QSAR analysis over models derived solely using the CoMFA electrostatic and steric fields. The final models predicted the β1- and β2-AR potency of the compounds in the training set with high accuracy (r2 = 0.93 and 0.86 respectively). The final β1-AR model predicted the β1-potencies of two out of the three test compounds, not included in the training set, with residual PA2 values 2-AR model (residual pA2 values -0.38).
