Abstract: The present invention relates to a novel antitumor agent containing a compound that inhibits binding between acetylated histone and a bromodomain-containing protein, preferably a thienotriazolodiazepine compound represented by the following formula (I) wherein each symbol is as defined in the description, or a pharmaceutically acceptable salt thereof or a hydrate or solvate as an active ingredient.

Abstract: The present invention relates to a novel antitumor agent containing a compound that inhibits binding between acetylated histone and a bromodomain-containing protein, preferably a thienotriazolodiazepine compound represented by the following formula (I) wherein each symbol is as defined in the description, or a pharmaceutically acceptable salt thereof or a hydrate or solvate as an active ingredient.

Abstract: To provide a liquefied gas supply device and supply method that has good operability and a compact structure, and enables stable supply of large flow rates of liquefied gas while managing the consumption amount of liquefied gas promptly in real time. A liquefied gas supply device characterized by having container 1 filled with liquefied gas, load cell 2 for measuring the weight of container 1, halogen lamp unit 3 for heating container 1, and a gas transfer means to transfer gas in the gas-phase section of container1, and arranging halogen lamp unit 3, comprising halogen lamp heater 3a and space 3b for the lamp, and load cell 2 in an integrated structure at bottom section 1a of container 1.

Abstract: A passive film forming method enabling formation of a passivated-oxide film having a layer made of chromium oxide in its outermost surface without conducting composite electric polishing. Also disclosed is a ultra-high purity fluid feed system, processing apparatus, and a fluid contracting component, each of which is free of metal contamination and is excellent in the gas discharge characteristics, non-catalytic characteristics and corrosion resistance. The surface of the ferrite-based stainless steel containing Mn by not more than 0.03 wt %, Cu by not more than 0.05 wt %, C by not more than 0.01 wt %, and Al by not more 0.01 wt % is electrolytically polished, then moisture is removed from the surface of the stainless steel by making the steel in an inert gas, then a passivated oxide film having a layer made of non-crystalline chromium oxide is formed on the outermost surface thereof by executing heat treatment in a temperature range of 300.degree. C. to 600.degree. C.

Abstract: The invention has as an object thereof to provide a welding method which is capable of forming an oxide passivated film, which is corrosion resistant, non-catalytic, and has an extremely small amount of released gasses, chiefly on the welded portion or in the vicinity thereof during the welding process. During the welding process, a gas in which 800 ppm.about.2.5% of moisture is contained in an inert gas is caused to flow, and a passivated film having chromium oxide as a chief component thereof is formed on the surface of the welded portion. The welding method comprises a welding process and a passivation process; in the passivation process, a gas in which 1000 ppm.about.2.5% of moisture is contained in an inert gas is employed.

Abstract: For regenerating an exhaust gas particulate collecting filter, there is provided an exhaust gas particulate purifying process in which damage to the filter caused by a thermal action can be prevented and further electric power can be saved when an electric current supply to an electric heater attached to the filter is controlled. In the filter container (4), an electric heater (21) is provided on an end surface of the filter on an upstream side with respect to a regenerating gas flow, or provided at a position close to the end surface. Also, a temperature sensor (22) for measuring a temperature of the filter is provided inside the filter or at a position close to an end surface of the filter opposite to the aforementioned end surface.

Abstract: A device for removing for particulates a diesel engine having a filter arranged in the flow of the exhaust gas, a heater for heating the filter, and an air pump or obtaining a flow of air for incineration of the particulates trapped by the filter when it is clogged. The amount of the air for the incineration of the filter is calculated in accordance with the amount of the particulates remaining in the filter at the peripheral zone thereof just after the preceding incineration cycle.

Abstract: A filter for collecting fine particles in exhaust gas is equipped with: a multitude of cells bordering on each other and allowing exhaust gas to flow therethrough; cell partitions separating these multitude of cells from each other and having a multitude of pores through which the multitude of cells communicate with each other; and stop sections provided in the end portions of the multitude of cells so as to cause the exhaust gas introduced into each of the cells at one end thereof to flow into the adjacent cells through the pores of the cell partitions and be discharged at the other end of the cell. These stop sections are so arranged that the amount of exhaust gas entering the cells at the central region of one of the end portions is smaller than that at the peripheral region of the same. With this construction, the amount of fine particles accumulated in the peripheral filter region is relatively large, and that in the central filter region is relatively small.

Abstract: A particulate trap filter is provided with an electric heater for burning out particulates accumulated therein. The electric heater is provided as a wiring pattern such that a higher power efficiency is provided for the portion corresponding to the portion of the filter located away from the center of the filter and a relatively lower power efficiency is provided for the portion corresponding to the central portion of the filter.