Chudakov
Dimitry M. Chudakov, Moscow RU
Patent application number | Description | Published |
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20120094377 | Modified Fluorescent Proteins and Methods for Using Same - Nucleic acid molecules encoding improved fluorescent mutants of the mKate2 protein, variants and derivatives thereof are provided, as well as proteins and peptides encoded by these nucleic acids. Also provided are proteins that are substantially similar to, or derivatives, homologues, or mutants of, the above-referenced specific proteins. Also provided are fragments of the nucleic acids and the peptides encoded thereby, as well as antibodies specific to the proteins and peptides of the invention. In addition, host-cells, stable cell lines and transgenic organisms comprising above-referenced nucleic acid molecules are provided. The subject protein and nucleic acid compositions find use in a variety of different applications and methods, particularly for labeling of biomolecules, cells or cell organelles. Finally, kits for use in such methods and applications are provided. | 04-19-2012 |
Dmitry M. Chudakov, Moscow RU
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20100015701 | NOVEL FLUORESCENT PROTEINS AND METHODS FOR USING SAME - The present invention provides nucleic acid molecules encoding novel red fluorescent proteins from | 01-21-2010 |
20110003974 | Modified fluorescent proteins and methods for using same - Embodiments of the present invention provide nucleic acid molecules encoding improved fluorescent mutants of the Katushka fluorescent protein, variants and derivatives thereof, as well as proteins and peptides encoded by these nucleic acids. Also of interest are proteins that are substantially similar to, or derivatives, or homologues, or mutants of, the above-referenced specific proteins. Also provided are fragments of the nucleic acids and the peptides encoded thereby, as well as antibodies specific to the proteins and peptides of the invention. In addition, host-cells, stable cell lines and transgenic organisms comprising the above-referenced nucleic acid molecules are provided. The subject protein and nucleic acid compositions find use in a variety of different applications and methods, particularly for labeling of biomolecules, cells or cell organelles. Finally, kits for use in such methods and applications are provided. | 01-06-2011 |
20110070625 | NOVEL FLUORESCENT PROTEINS AND METHODS FOR USING SAME - The present invention provides nucleic acid molecules encoding novel red fluorescent proteins from | 03-24-2011 |
20130203162 | NOVEL FLUORESCENT PROTEINS AND METHODS FOR USING SAME - The present invention provides nucleic acid molecules encoding novel red fluorescent proteins from | 08-08-2013 |
20130344591 | Modified Fluorescent Proteins and Methods for Using Same - Nucleic acid molecules encoding improved fluorescent mutants of the mKate2 protein, variants and derivatives thereof are provided, as well as proteins and peptides encoded by these nucleic acids. Also provided are proteins that are substantially similar to, or derivatives, homologues, or mutants of, the above-referenced specific proteins. Also provided are fragments of the nucleic acids and the peptides encoded thereby, as well as antibodies specific to the proteins and peptides of the invention. In addition, host-cells, stable cell lines and transgenic organisms comprising above-referenced nucleic acid molecules are provided. The subject protein and nucleic acid compositions find use in a variety of different applications and methods, particularly for labeling of biomolecules, cells or cell organelles. Finally, kits for use in such methods and applications are provided. | 12-26-2013 |
Igor L. Chudakov, San Jose, CA US
Patent application number | Description | Published |
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20090262904 | AUTOMATIC TELEPHONE LINE LOOP AROUND SYSTEM AND METHOD - A loop around system and method for use in a telephone line monitors line conditions to detect the initiation of loop testing and automatically bypasses an electronic device, such as a DSL line conditioner, used in the line to prevent the electronic device from being inadvertently detected by the testing system as a line fault. The system additionally shuts down power to itself from the line so that it does not interfere with testing, while continuing to monitor the line during testing to detect conditions that characterize the termination of testing, and then automatically switches the electronic device back into the line upon the conclusion of testing. The system and method may be employed unattended at intermediate locations in the line remote from the CO or the CPE. | 10-22-2009 |
Mikhail L. Chudakov, Moscow RU
Patent application number | Description | Published |
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20110107067 | SINGLE-CHIP MULTIPROCESSOR WITH CLOCK CYCLE-PRECISE PROGRAM SCHEDULING OF PARALLEL EXECUTION - A single-chip multiprocessor system and operation method of this system based on a static macro-scheduling of parallel streams for multiprocessor parallel execution. The single-chip multiprocessor system has buses for direct exchange between the processor register files and access to their store addresses and data. Each explicit parallelism architecture processor of this system has an interprocessor interface providing the synchronization signals exchange, data exchange at the register file level and access to store addresses and data of other processors. The single-chip multiprocessor system uses ILP to increase the performance. Synchronization of the streams parallel execution is ensured using special operations setting a sequence of streams and stream fragments execution prescribed by the program algorithm. | 05-05-2011 |