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Rahul Mitra, 573623 Avey Ct, Pearland, TX 77584

Known as:
Rahul M Kapoor Rahil Mitra Pahul Mitra Rehul Mitra Rahual Mita
Related to:
Virginia Handen

Rahul Mitra Phones & Addresses

3623 Avey Ct, Pearland, TX 77584    281-4899724   

8181 Fannin St, Houston, TX 77054    713-7940738   

2401 Westridge St, Houston, TX 77054    713-6609142   

Orono, ME   

12309 Bend Creek Ln, Pearland, TX 77584   

Work

Company: Hand in health Jun 2012 Position: Project manager

Education

School / High School: The University of Texas at Austin- Austin, TX 2009 Specialities: Certificate in Business Administration

Skills

Java • HTML • PHP • SQL • CSS • XML and Assembly language programming skills Fluency in English • Spanish • French • Bengali and Hindi. Solid knowledge of RDBMS • SQL and database concepts Proficient in PowerWorld • Matlab • NI LabVIEW and Eclipse IDE Windows Networking (CCNA training) and Database design concepts Excellent verbal and written communication skills Ability to manage multiple tasks and projects simultaneously
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Mentions for Rahul Mitra

Rahul Mitra resumes & CV records

Resumes

Rahul Mitra Photo 34

Rahul Mitra

Location:
12106 Cedar Form Ln, Stafford, TX 77477
Industry:
Consumer Services
Work:
University of Houston
Education:
University of Houston 1991 - 1995
Bachelors, Bachelor of Business Administration, Marketing, Accounting
Skills:
Microsoft Excel, Customer Service, Microsoft Office, C++, Strategic Planning, Research, Microsoft Word, C, Management, Business Planning, Business Development, Negotiation, Tactical Sales Planning, Directing
Rahul Mitra Photo 35

Owner

Location:
Houston, TX
Industry:
Biotechnology
Work:
Genomics Usa
Owner
Rahul Mitra Photo 36

Rahul Mitra

Location:
Houston, TX
Industry:
Biotechnology
Skills:
Lifesciences, Genomics, Biochemistry, New Business Development, Molecular Biology, Biotechnology, Drug Discovery, Bioinformatics, Immunology, Genetics, Cell Culture, Life Sciences, Cell Biology, Cell, Pharmaceutical Industry, Management, Science, Pcr, Cancer
Rahul Mitra Photo 37

Rahul Mitra

Rahul Mitra Photo 38

Rahul Mitra

Rahul Mitra Photo 39

Rahul Mitra

Location:
United States
Rahul Mitra Photo 40

Rahul Mitra

Location:
United States
Rahul Mitra Photo 41

Rahul Mitra - Washington, DC

Work:
Hand in Health Jun 2012 to 2000
Project Manager Vort Port International Nov 2011 to 2000
Project Director Deltek, Inc. Nov 2011 to 2000
Software Engineer Engineer Without Borders Aug 2006 to 2000
Project Lead Health Empowering Humanity - Houston, TX Aug 2010 to Nov 2011
Project Lead The University of Texas at Austin - Austin, TX May 2010 to Jul 2011
Assistant Webmaster The University of Texas at Austin - Austin, TX May 2007 to Jun 2009
Technical Analyst
Education:
The University of Texas at Austin - Austin, TX 2009 to 2011
Certificate in Business Administration The University of Texas at Austin - Austin, TX 2006 to 2011
Bachelor of Science in Electrical and Computer Engineering The University of Texas at Austin - Austin, TX 2006 to 2011
Bachelors in Economics
Skills:
Java, HTML, PHP, SQL, CSS, XML and Assembly language programming skills Fluency in English, Spanish, French, Bengali and Hindi. Solid knowledge of RDBMS, SQL and database concepts Proficient in PowerWorld, Matlab, NI LabVIEW and Eclipse IDE Windows Networking (CCNA training) and Database design concepts Excellent verbal and written communication skills Ability to manage multiple tasks and projects simultaneously

Publications & IP owners

Us Patents

Population Scale Hla-Typing And Uses Thereof

US Patent:
7667026, Feb 23, 2010
Filed:
Feb 27, 2007
Appl. No.:
11/711561
Inventors:
Michael E. Hogan - Tuscon AZ, US
Krishna Jayaraman - Hoffman Estates IL, US
Rahul Mitra - Pearland TX, US
Frederick H. Eggers - Tuscon AZ, US
Assignee:
Genomics USA, Inc. - Hoffman Estates IL
International Classification:
C12Q 1/68
C07H 21/04
US Classification:
536 2433, 435 6, 536 243
Abstract:
The present invention provides a portable system for real-time population-scale HLA genotyping and/or allelotyping in a field environment and methods of such population-scale HLA genotyping. The individual components of the system are portable to and operable within a field environment thereby providing high throughput with real-time geno- or allelotyping. Also provided are HLA gene-specific primers and HLA allele-specific or single nucleotide polymorphism-specific hybridization probes. In addition the present invention provides a microarray comprising the hybridization probes. Further provided is a kit comprising the HLA gene-specific primers and the microarray.

Population Scale Hla-Typing And Uses Thereof

US Patent:
8183360, May 22, 2012
Filed:
Feb 18, 2010
Appl. No.:
12/660002
Inventors:
Rahul Mitra - Pearland TX, US
Krishna Jayaraman - Hoffman Estates IL, US
Frederick H. Eggers - Tuscon AZ, US
Michäel E. Hogan - Tuscon AZ, US
Assignee:
Genomics USA, Inc - Hoffman Estates IL
International Classification:
C07H 21/04
US Classification:
536 2433, 536 243
Abstract:
The present invention provides a portable system for real-time population-scale HLA genotyping and/or allelotyping in a field environment and methods of such population-scale HLA genotyping. The individual components of the system are portable to and operable within a field environment thereby providing high throughput with real-time geno- or allelotyping. Also provided are HLA gene-specific primers and HLA allele-specific or single nucleotide polymorphism-specific hybridization probes. In addition the present invention provides a microarray comprising the hybridization probes. Further provided is a kit comprising the HLA gene-specific primers and the microarray.

Population Scale Hla-Typing And Uses Thereof

US Patent:
8575325, Nov 5, 2013
Filed:
May 21, 2012
Appl. No.:
13/476774
Inventors:
Krishna Jayaraman - Hoffman Estates IL, US
Rahul Mitra - Pearland TX, US
Michael E Hogan - Tuscon AZ, US
Frederick H Eggers - Tuscon AZ, US
Assignee:
Genomics USA, Inc. - Hoffman Estates IL
International Classification:
C07H 21/04
C12Q 1/68
C12P 19/34
US Classification:
536 2433, 435 61, 435 611, 435 612
Abstract:
The present invention provides a portable system for real-time population-scale HLA genotyping and/or allelotyping in a field environment and methods of such population-scale HLA genotyping. The individual components of the system are portable to and operable within a field environment thereby providing high throughput with real-time geno- or allelotyping. Also provided are HLA gene-specific primers and HLA allele-specific or single nucleotide polymorphism-specific hybridization probes. In addition the present invention provides a microarray comprising the hybridization probes. Further provided is a kit comprising the HLA gene-specific primers and the microarray.

Methods And Devices Based Upon A Novel Form Of Nucleic Acid Duplex On A Surface

US Patent:
2003013, Jul 17, 2003
Filed:
Jul 11, 2002
Appl. No.:
10/193938
Inventors:
Michael Hogan - Tucson AZ, US
Sergy Lemeshko - Houston TX, US
Yuri Belosludtsev - The Woodlands TX, US
Tom Powdrill - The Woodlands TX, US
Rahul Mitra - Pearland TX, US
International Classification:
C12Q001/68
C12M001/34
B05D003/00
US Classification:
435/006000, 435/287200, 427/002110
Abstract:
The present invention relates to simple method to fabricate DNA hybridization devices based upon adsorptive attachment of oligonucleotides to a positively charged surface. Such adsorbed oligonucleotide probes form a densely packed monolayer, which retains capacity for base-pair specific hybridization with a solution state nucleic acid target strand to form the duplex. However, both strand dissociation kinetics and the rate of DNase digestion suggest on symmetry grounds that solution-state nucleic acid binds to such adsorbed oligonucleotides to form a highly asymmetric and unwound duplex, with structural details that are substantially different from that known for the Watson-Crick DNA duplex. This novel nucleic acid duplex form can serve as the basis for a new class of hybridization device and methods for their use. It is also disclosed that new methods of nucleic acid duplex detection can be developed which are based upon the interaction of enzymes and dye labels with the unique structural characteristics of the non-helical duplex described herein. Preferred implementations of the invention include DNA microarrays, bead-based nucleic acid analysis, microelectronic devices to detect nucleic acid hybridization and more traditional methods of laboratory analysis, including hybridization on membranous and other solid supports.

Method For Manufacturing Microarrays Based On The Immobilization Of Porous Substrates On Thermally Modifiable Surfaces

US Patent:
2004000, Jan 15, 2004
Filed:
Mar 13, 2003
Appl. No.:
10/388061
Inventors:
Rahul Mitra - Pearland TX, US
Michael Hogan - Tuscon AZ, US
International Classification:
C12M001/34
B05B001/00
B32B031/00
US Classification:
435/287200, 156/280000
Abstract:
The present invention is directed to a method of manufacturing a high density analysis device, preferably a microarray, comprising attaching an activatable material to a substrate, such that the activatable material and the substrate are in direct contact, to form a surface material; ii) immobilizing a porous or non-porous material onto the surface material; and iii) binding the immobilized porous or non-porous material with a probe to provide the high-density analysis device, and articles of same.

Methods And Devices Based Upon A Novel Form Of Nucleic Acid Duplex On A Surface

US Patent:
2009001, Jan 8, 2009
Filed:
Apr 4, 2008
Appl. No.:
12/080720
Inventors:
Michael E. Hogan - Tucson AZ, US
Sergy Lemeshko - Houston TX, US
Yuri Belosludtsev - The Woodlands TX, US
Thomas F. Powdrill - College Station TX, US
Rahul Mitra - Pearland TX, US
Joseph G. Utermohlen - Tucson AZ, US
Frederick H. Eggers - Oro Valley AZ, US
International Classification:
C40B 40/06
C40B 30/04
US Classification:
506 9, 506 16
Abstract:
Provided herein are biomolecular hybridization devices comprising a substrate with a permanently and covalently attached surface of functional groups and an adsorbed monolayer of unmodified, single-stranded oligonucleotides all of which are 10 to about 24 bases in length as a saturated film of constrained oligonucleotides on the surface via direct non-covalent phosphate-surface adsorptive contact of substantially all phosphate groups of each oligonucleotide. The constrained oligonucleotides are effective to dissociably hybridize to a complementary single-stranded nucleic acid with asymmetric, non-helical base pairing and without oligonucleotide dissociation from the surface of the device. Also, provided are methods for hybridizing solution-state target nucleic acids to probe nucleic acids and for identifying a nucleotide sequence to which a nucleotide-binding protein binds using the biomolecular hybridization devices.

Dna Aptamers And Use Thereof For The Treatment Of Cancer

US Patent:
2022038, Dec 1, 2022
Filed:
Dec 16, 2019
Appl. No.:
17/413550
Inventors:
- Austin TX, US
- Roma, IT
Cristian RODRIGUEZ-AGUAYO - Houston TX, US
Rahul MITRA - Houston TX, US
Anil K. SOOD - Houston TX, US
Vittorio DE FRANCISCIS - Naples, IT
David VOLK - Houston TX, US
Lokesh Ganesh L. RAO - Houston TX, US
Assignee:
Board of Regents, The University of Texas System - Austin TX
Consiglio Nazionale delle Ricerche - Roma
International Classification:
C12N 15/115
A61K 31/337
A61K 33/243
A61P 35/00
Abstract:
Provided herein are DNA aptamers targeting AXL receptor kinase. The DNA aptamers may comprise a thiophosphate backbone and be chemically modified. Further provided herein are methods of use thereof for the treatment of a disease or disorder, such as cancer.

Methods And Devices Based Upon A Novel Form Of Nucleic Acid Duplex On A Surface

US Patent:
2019020, Jul 11, 2019
Filed:
Mar 20, 2018
Appl. No.:
15/926761
Inventors:
- Round Rock TX, US
Sergy Lemeshko - Houston TX, US
Yuri Belosludtsev - The Woodlands TX, US
Thomas F. Powdrill - College Station TX, US
Rahul Mitra - Pearland TX, US
Joseph G. Utermohlen - Tucson AZ, US
Frederick H. Eggers - Oro Valley AZ, US
Assignee:
Genomics USA, Inc. - Round Rock TX
International Classification:
B01J 19/00
Abstract:
Provided herein are biomolecular hybridization devices comprising a substrate with a permanently and covalently attached surface of functional groups and an adsorbed monolayer of unmodified, single-stranded oligonucleotides all of which are 10 to about 24 bases in length as a saturated film of constrained oligonucleotides on the surface via direct non-covalent phosphate-surface adsorptive contact of substantially all phosphate groups of each oligonucleotide. The constrained oligonucleotides are effective to dissociably hybridize to a complementary single-stranded nucleic acid with asymmetric, non-helical base pairing and without oligonucleotide dissociation from the surface of the device. Also, provided are methods for hybridizing solution-state target nucleic acids to probe nucleic acids and for identifying a nucleotide sequence to which a nucleotide-binding protein binds using the biomolecular hybridization devices.

Possible Relatives

Abhishek Mitra  Indrajit Mitra  Indrani Mitra  Jessica A Mitra  Kaushik Mitra  Michael N Mitra  Neil M Mitra  Rahul Nath  Rahul Singh  Rahul Patel 

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