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Maneesh R Pingle

from Huntington, NY
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Also known as:
Maneesh Raghunath Pingle
Related to:
Jyotsna V LeleShilpa Lele Pingle, 56Shirin V Lele, 54Vidyadhar H Lele
Connected to:
Tammy L Pingle, 56Arianne N Pingledis, 36Angela D Pingleton, 39Carolyn I Pingleton, 71Christopher A Pingleton, 33Dawn G Pingleton, 88Michael C Pingleton, 73Rhonda K Pingleton, 65Sara N Pingleton, 38Wesley Pingleton, 37

Maneesh Pingle Phones & Addresses

  • Jupiter, FL
  • Huntington, NY
  • 515 75Th St, New York, NY 10021 (212) 535-1315
  • 507 73Rd St, New York, NY 10021 (212) 535-1315
  • W Lafayette, IN
  • West Lafayette, IN
  • 527 E 78Th St, New York, NY 10075 (212) 535-1315

Work

Company: Sai life sciences ltd May 2019 Position: Head - discovery business development

Education

School / High School: University of Mumbai 1988 to 1992 Specialities: Pharmacy

Skills

Drug Discovery • Molecular Biology • Microbiology • Biochemistry • Lifesciences • Hplc • Immunology • Science • Biotechnology • Life Sciences • Microscopy • Assay Development • Cell • Dna • Pharmacology • Uv/Vis • Cell Biology • Pharmaceutical Industry • Cell Culture • Research • Protein Chemistry

Industries

Biotechnology

Resumes

Resumes

Maneesh Pingle Photo 1

Head - Discovery Business Development

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Location:
New York, NY
Industry:
Biotechnology
Work:
Sai Life Sciences Ltd
Head - Discovery Business Development
Blinkbio Aug 2015 - Apr 2019
President
Coferon Mar 2015 - Aug 2015
President
Coferon Oct 2014 - Mar 2015
Vice-President, Operations and Business Development
Coferon May 2013 - Sep 2014
Director, Business Development and New Projects
Education:
University of Mumbai 1988 - 1992
Purdue University
Doctorates, Doctor of Philosophy, Philosophy, Chemistry
Skills:
Drug Discovery
Molecular Biology
Microbiology
Biochemistry
Lifesciences
Hplc
Immunology
Science
Biotechnology
Life Sciences
Microscopy
Assay Development
Cell
Dna
Pharmacology
Uv/Vis
Cell Biology
Pharmaceutical Industry
Cell Culture
Research
Protein Chemistry

Publications

Us Patents

Methods For Identifying Target Nucleic Acid Molecules

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US Patent:
20050266417, Dec 1, 2005
Filed:
Sep 10, 2004
Appl. No.:
10/939294
Inventors:
Francis Barany - New York NY, US
Daniel Turner - New York NY, US
Maneesh Pingle - New York NY, US
Hanna Pincas - New York NY, US
International Classification:
C12Q001/68
US Classification:
435006000
Abstract:
The present invention relates to methods for identifying target nucleic acid molecules differing by one or more single-base changes, insertions, deletions, or translocations; and identifying one or more target mRNA molecules differing by one or more splice site variations in a plurality of mRNA molecules. Also disclosed is a method of generating a linearly amplified representation of a whole genome. Other aspects of the present invention relate to labeled detection oligonucleotide probes and translational oligonucleotide probes as well as to methods of designing such probes.

Detection Of Target Nucleic Acid Sequences Using Fluorescence Resonance Energy Transfer

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US Patent:
20110136116, Jun 9, 2011
Filed:
Apr 8, 2009
Appl. No.:
12/934866
Inventors:
Francis Barany - New York NY, US
Maneesh Pingle - New York NY, US
Donald Bergstrom - West Lafayette IN, US
Assignee:
CORNELL UNIVERSITY - Ithaca NY
PERDUE RESEARCH FOUNDATION - West Lafayette IN
International Classification:
C12Q 1/68
G01N 33/53
US Classification:
435 611, 436 94
Abstract:
A method for identifying a plurality of target nucleic acid molecules in a sample. The method provides a plurality of oligonucleotide probe sets. Each set comprises a first and a second probe, each having a target-specific portion and a tunable portion with an acceptor or a donor group. The first probe further comprises an endcapped hairpin. A reaction comprises a denaturation and hybridization cycle. Under the hybridization, the set of probes hybridize in a base-specific manner to their respective target nucleotide sequences, and ligate to one another to form a ligation product. Under conditions that permit hybridization of the tunable portions of the ligation product to one another, an internally hybridized ligation product formed, which allows the detection of the fluorescence resonance energy transfer (FRET). A method comprising PCR amplification is also disclosed.

Coferons And Methods Of Making And Using Them

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US Patent:
20110263688, Oct 27, 2011
Filed:
Apr 9, 2009
Appl. No.:
12/937053
Inventors:
Francis Barany - New York NY, US
Maneesh Pingle - New York NY, US
Donald Bergstrom - West Lafayette IN, US
Sarah Filippa Giardina - New York NY, US
Assignee:
PURDUE RESEARCH FOUNDATION - West Lafayette IN
CORNELL UNIVERSITY - Ithaca NY
International Classification:
A61K 31/7052
A61P 35/00
C40B 40/04
C07H 21/00
C40B 30/04
US Classification:
514 44 R, 536 231, 506 9, 506 15, 506 16
Abstract:
A monomer useful in prepaπng therapeutic compounds includes a diversity element which potentially binds to a target molecule with a dissociation constant of less than 300 11 M and a linker element connected to the diversity element The linker element has a molecular weight less than 500 daltons, is connected, directly or indirectly through a connector, to said diversity element, and is capable of forming a reversible covalent bond or noncovalent interaction with a binding partner of the linker element The monomers can be covalently or non-covalently linked together to form a therapeutic multimer or a precursor thereof

Coferons And Methods Of Making And Using Them

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US Patent:
20120295874, Nov 22, 2012
Filed:
Oct 7, 2010
Appl. No.:
13/500857
Inventors:
Francis Barany - New York NY, US
Maneesh Pingle - New York NY, US
Sarah Filippa Giardina - New York NY, US
Donald Bergstrom - West Lafayette IN, US
Lee Daniel Arnold - Mt. Sinai NY, US
Assignee:
CORNELL UNIVERSITY - Ithaca NY
COFERON, INC. - New York NY
PURDUE RESEARCH FOUNDATION - West Lafayette IN
International Classification:
A61K 31/69
G01N 33/566
A61K 31/397
A61K 31/506
A61K 31/505
A61K 31/454
A61K 31/415
A61K 31/357
C07F 5/02
C07D 403/14
C07D 239/42
C07D 401/12
C07D 231/38
C07D 207/24
C07D 205/04
C07D 319/12
C07D 413/14
A61K 31/4015
G01N 33/53
US Classification:
514 64, 435 71, 436501, 51421017, 514250, 514275, 514326, 514407, 514423, 514452, 544229, 544295, 544332, 546 13, 546208, 5483714, 548540, 548952, 549379
Abstract:
The present invention is directed to a monomer useful in preparing therapeutic compounds. The monomer includes one or more pharmacophores which potentially binds to a target molecule with a dissociation constant of less than 300 μM and a linker element connected to the pharmacophore. The linker element has a molecular weight less than 500 daltons, is connected, directly or indirectly through a connector, to the pharmacophore.

Bio-Mediated Assembly Of Micrometer-Scale And Nanometer-Scale Structures

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US Patent:
20020027124, Mar 7, 2002
Filed:
Jun 11, 2001
Appl. No.:
09/878487
Inventors:
Rashid Bashir - West Lafayette IN, US
Donald Bergstrom - West Lafayette IN, US
Sangwoo Lee - West Lafayette IN, US
Helen McNally - West Lafayette IN, US
Dong Guo - West Lafayette IN, US
John Denton - West Lafayette IN, US
Maneesh Pingle - West Lafayette IN, US
International Classification:
B44C001/22
US Classification:
216/011000
Abstract:
A method of assembling a nanometer-scale construct by: (a) providing a nanometer-scale object such as an active electron device; (b) attaching a first bio-link to said nanometer-scale object to form a functionalized nanometer-scale object; (c) providing a substrate; (d) attaching a second bio-link to said substrate to form a functionalized substrate, wherein said second bio-link is a complement to said first bio-link in that said second bio-link selectively binds with said first bio-link; and (e) bringing said functionalized nanometer-scale object within close enough proximity of said functionalized substrate that said second bio-link selectively binds with said first bio-link, and thereby forms an assembled nanometer-scale construct.

Cephalosporin Derivatives And Methods Of Use

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US Patent:
20150322087, Nov 12, 2015
Filed:
Nov 4, 2013
Appl. No.:
14/439373
Inventors:
- Lawrence KS, US
- Ithaca NY, US
Robert Smith - Lawrence KS, US
Ben S. Gold - Millburn NJ, US
Paul Hanson - Lawrence KS, US
Chunjing Liu - Lawrence KS, US
Lester Allen Mitscher - Lawrence KS, US
Maneesh Pingle - Huntington NY, US
Frank John Schoenen - Lawrence KS, US
International Classification:
C07D 501/16
A61K 31/43
C07D 277/06
A61K 31/426
A61K 45/06
A61K 31/427
C07D 513/04
A61K 31/429
A61K 31/545
A61K 31/546
C07D 499/44
C07D 417/12
Abstract:
This invention provides cephalosporin derivatives for killing or inhibiting the spread of microorganisms such as non-replicating and in the treatment of infectious disease.

Monomers Capable Of Dimerizing In An Aqueous Solution, And Methods Of Using Same

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US Patent:
20140194383, Jul 10, 2014
Filed:
Apr 9, 2012
Appl. No.:
14/110056
Inventors:
Francis Barany - New York NY, US
Maneesh Pingle - New York NY, US
Donald E. Bergstrom - Portland OR, US
Sarah F. Giardina - New York NY, US
Lee Daniel Arnold - Mt. Sinai NY, US
Assignee:
Cornell University - Ithaca NY
Coferon, Inc. - New York NY
Purdue Research Foundation - West Lafayette IN
International Classification:
C07D 211/26
C07F 5/04
US Classification:
514 64, 546 13, 546234, 435184, 435375
Abstract:
Described herein are monomers capable of forming a biologically useful multimer when in contact with one, two, three or more other monomers in an aqueous media. In one aspect, such monomers may be capable of binding to another monomer in an aqueous media (e.g. in vivo) to form a multimer, (e.g. a dimer). Contemplated monomers may include a ligand moiety, a linker element, and a connector element that joins the ligand moiety and the linker element. In an aqueous media, such contemplated monomers may join together via each linker element and may thus be capable of modulating one or more biomolecules substantially simultaneously, e.g., modulate two or more binding domains on a protein or on different proteins.

Cofluorons And Methods Of Making And Using Them

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US Patent:
20140161729, Jun 12, 2014
Filed:
Apr 9, 2012
Appl. No.:
14/110019
Inventors:
Francis Barany - New York NY, US
Maneesh Pingle - New York NY, US
Donald E. Bergstrom - West Lafayette IN, US
Sarah F. Giardina - New York NY, US
Lee Daniel Arnold - Mt. Sinai NY, US
Assignee:
CORNELL UNIVERSITY - Ithaca NY
International Classification:
G01N 33/573
C07D 405/06
C07D 491/107
C07D 211/26
C07D 263/06
C07F 5/02
C07D 401/06
US Classification:
424 96, 546 13, 546196, 546199, 546245, 544137, 546 17, 435 78
Abstract:
The present invention is directed to method of using a collection of monomers capable of forming multimers as a fluorescence reporter in different applications such as ligand detection/screening, disease diagnosis, drug discovery or screening, fluorescent labeling and imaging, or other fluorescent methodologies. Each monomer in the collection includes one or more ligand elements useful for binding to a target molecule with a dissociation constant of less than 300 μM and a linker element connected to the ligand elements directly or indirectly through a connector. Association of linker elements of different combinations of monomers, with their ligand elements bound to the target molecule to form a multimer, will generate a unique fluorescent signature different from that produced by those monomers either alone or in association with each other in the absence of the target molecule, when subjected to electromagnetic excitement.
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Maneesh R Pingle from Huntington, NY Get Report