Matthew Peter Patricelli

US Patent:

7083987, Aug 1, 2006

Filed:

Feb 5, 2002

Appl. No.:

10/049164

Inventors:

Matthew P. Patricelli - San Diego CA, US

Assignee:

Activx Biosciences, Inc. - La Jolla CA

International Classification:

G01N 33/533
G01N 21/76
C07K 1/13
C07H 19/167

US Classification:

436546, 436 86, 436172, 436800, 530402, 536 261

Abstract:

Methods and compositions are described for analyzing complex protein mixtures using fluorescent activity-based probes. In particular, probes that specifically react with and bind to the active form of one or more target proteins are employed. Fluorescent signals obtained from the labeled active target proteins can be related to the presence or amount of active members of the desired target protein class. The methods and compositions described herein can be used, for example, to provide diagnostic information concerning pathogenic states, in identifying proteins that may act as therapeutic targets, and in drug discovery.

US Patent:

7179655, Feb 20, 2007

Filed:

Mar 1, 2002

Appl. No.:

10/087602

Inventors:

Matthew Patricelli - San Diego CA, US

Assignee:

Activx Biosciences, Inc. - La Jolla CA

International Classification:

G01N 24/00

US Classification:

436173, 435 71, 435 792, 436175, 436536, 436 63

Abstract:

Methods and compositions are described for analyzing complex protein mixtures, such as proteomes, using activity-based probes. In particular, probes that specifically react with and bind to the active form of one or more target proteins are employed. Labeled peptides obtained from the labeled active target proteins can be used in screening and identification procedures, and can be related to the identity, presence, amount, or activity of active members of the desired target protein class. The methods and compositions described herein can be used, for example, to provide diagnostic information concerning pathogenic states, in identifying proteins that may act as therapeutic targets, and in drug discovery.

US Patent:

20020040275, Apr 4, 2002

Filed:

Apr 16, 2001

Appl. No.:

09/836148

Inventors:

Benjamin Cravatt - La Jolla CA, US
Erik Sorensen - San Diego CA, US
Matthew Patricelli - San Diego CA, US
Martha Lovato - San Diego CA, US
Gregory Adam - San Diego CA, US

Assignee:

The Scripps Research Institute

International Classification:

G01N033/48
G01N033/53

US Classification:

702/019000, 435/007100, 435/007200

Abstract:

The present invention provides methods for analyzing proteomes, as cells or lysates. The analysis is based on the use of probes that have specificity to the active form of proteins, particularly enzymes and receptors. The probes can be identified in different ways. In accordance with the present invention, a method is provided for generating and screening compound libraries that are used for the identification of lead molecules, and for the parallel identification of their biological targets. By appending specific functionalities and/or groups to one or more binding moieties, the reactive functionalities gain binding affinity and specificity for particular proteins and classes of proteins. Such libraries of candidate compounds, referred to herein as activity-based probes, or ABPs, are used to screen for one or more desired biological activities or target proteins.

US Patent:

20020045194, Apr 18, 2002

Filed:

Dec 15, 2000

Appl. No.:

09/738954

Inventors:

Benjamin Cravatt - La Jolla CA, US
Erik Sorensen - San Diego CA, US
Matthew Patricelli - San Diego CA, US
Martha Lovato - San Diego CA, US
Gregory Adam - San Diego CA, US

International Classification:

G01N033/53

US Classification:

435/007900

Abstract:

The present invention provides methods for analyzing proteomes, as cells or lysates. The analysis is based on the use of probes that have specificity to the active form of proteins, particularly enzymes and receptors. The probes can be identified in different ways. In accordance with the present invention, a method is provided for generating and screening compound libraries that are used for the identification of lead molecules, and for the parallel identification of their biological targets. By appending specific functionalities and/or groups to one or more binding moieties, the reactive functionalities gain binding affinity and specificity for particular proteins and classes of proteins. Such libraries of candidate compounds, referred to herein as activity-based probes, or ABPs, are used to screen for one or more desired biological activities or target proteins.

US Patent:

20020064799, May 30, 2002

Filed:

Apr 16, 2001

Appl. No.:

09/836145

Inventors:

Benjamin Cravatt - La Jolla CA, US
Erik Sorensen - San Diego CA, US
Matthew Patricelli - San Diego CA, US
Martha Lovato - San Diego CA, US
Gregory Adam - San Diego CA, US

Assignee:

The Scripps Research Institute of an Assignment

International Classification:

G01N033/53
C07C317/10
C07D213/44
C07D207/04

US Classification:

435/007100, 546/339000, 548/570000, 568/025000

Abstract:

The present invention provides methods for analyzing proteomes, as cells or lysates. The analysis is based on the use of probes that have specificity to the active form of proteins, particularly enzymes and receptors. The probes can be identified in different ways. In accordance with the present invention, a method is provided for generating and screening compound libraries that are used for the identification of lead molecules, and for the parallel identification of their biological targets. By appending specific functionalities and/or groups to one or more binding moieties, the reactive functionalities gain binding affinity and specificity for particular proteins and classes of proteins. Such libraries of candidate compounds, referred to herein as activity-based probes, or ABPs, are used to screen for one or more desired biological activities or target proteins.

US Patent:

20020182652, Dec 5, 2002

Filed:

May 29, 2002

Appl. No.:

10/158498

Inventors:

Benjamin Cravatt - La Jolla CA, US
Erik Sorensen - San Diego CA, US
Matthew Patricelli - San Diego CA, US
Martha Lovato - San Diego CA, US
Gregory Adam - San Diego CA, US

International Classification:

G01N033/53
G01N033/542
G01N033/543

US Classification:

435/007900, 436/518000

Abstract:

The present invention provides methods for analyzing proteomes, as cells or lysates. The analysis is based on the use of probes that have specificity to the active form of proteins, particularly enzymes and receptors. The probes can be identified in different ways. In accordance with the present invention, a method is provided for generating and screening compound libraries that are used for the identification of lead molecules, and for the parallel identification of their biological targets. By appending specific functionalities and/or groups to one or more binding moieties, the reactive functionalities gain binding affinity and specificity for particular proteins and classes of proteins. Such libraries of candidate compounds, referred to herein as activity-based probes, or ABPs, are used to screen for one or more desired biological activities or target proteins.

US Patent:

20050287594, Dec 29, 2005

Filed:

Dec 15, 2000

Appl. No.:

09/738271

Inventors:

Benjamin Cravatt - La Jolla CA, US
Erik Sorensen - San Diego CA, US
Matthew Patricelli - San Diego CA, US
Martha Lovato - San Mateo CA, US
Gregory Adam - Berkeley Heights NJ, US

International Classification:

G01N033/53
G01N033/543

US Classification:

435007100, 436518000

Abstract:

The present invention provides methods for analyzing proteomes, as cells or lysates. The analysis is based on the use of probes that have specificity to the active form of proteins, particularly enzymes and receptors. The probes can be identified in different ways. In accordance with the present invention, a method is provided for generating and screening compound libraries that are used for the identification of lead molecules, and for the parallel identification of their biological targets. By appending specific functionalities and/or groups to one or more binding moieties, the reactive functionalities gain binding affinity and specificity for particular proteins and classes of proteins. Such libraries of candidate compounds, referred to herein as activity-based probes, or ABPs, are used to screen for one or more desired biological activities or target proteins.

US Patent:

20220298213, Sep 22, 2022

Filed:

May 23, 2022

Appl. No.:

17/750833

Inventors:

- San Diego CA, US
- La Jolla CA, US
Matthew PATRICELLI - San Diego CA, US
Dean STAMOS - San Diego CA, US
Gabe SIMON - San Diego CA, US
Benjamin HORNING - San Diego CA, US
Ekaterina VINOGRADOVA - San Diego CA, US
Brian NORDIN - San Diego CA, US
Kristen BALTGALVIS - San Diego CA, US
Todd KINSELLA - San Diego CA, US

International Classification:

C07K 14/47
C07D 211/94

Abstract:

Disclosed herein are in vivo engineered cereblon protein and methods of making the same. The in vivo engineered cereblon protein can include a site-specific non-naturally occurring modification at cysteine 287 as set forth in SEQ ID NO:1, or cysteine 286 as set forth in SEQ ID NO: 2 or 3, the modification comprising a moiety resulting from an in vivo Michael addition reaction between an exogenous Michael acceptor and the cysteine 287 as set forth in SEQ ID NO: 1, or cysteine 286 as set forth in SEQ ID NO: 2 or 3.