Exhaustive identification of human class II basic helix–loop–helix proteins by virtual library screening

Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to extrinsic and intrinsic signals. Furthermore, renewable pools of stem cells in adult tissues are subject to similar regulation. Basic helix–loop–h...

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Published inMechanisms of development Vol. 119; pp. S285 - S291
Main Authors McLellan, Andrew S., Langlands, Kenneth, Kealey, Terence
Format Journal Article
LanguageEnglish
Published Ireland Elsevier Ireland Ltd 01.12.2002
Subjects
Amino Acid Sequence
Animals
ASCL4
ASCL5
ATOH7
Basic Helix-Loop-Helix Transcription Factors - metabolism
Basic helix–loop–helix
Beta3 family
bHLH42
BHLHB4
BHLHB5
Bioinformatics
Caenorhabditis elegans - metabolism
Carcinogenesis
Class II
Data-mining
Development
DNA-Binding Proteins - metabolism
Embryogenesis
Fingerprint
Genome
Helix-Loop-Helix Motifs
Hematopoiesis
Humans
In silico
Insulin secretion
Libraries, Digital
Mammalian 2-hybrid
MESP2
MIST1
Molecular Sequence Data
Neurogenesis
OLIG1
OLIG3
Pancreas
Pattern matching
PTF1a
SCLERAXIS
TCF23
TCF24
Transcription Factors - metabolism
ASCL5
MESP2
ASCL4
Basic helix–loop–helix
TCF24
TCF23
MIST1
Neurogenesis
Carcinogenesis
BHLHB4
BHLHB5
Insulin secretion
ATOH7
Embryogenesis
SCLERAXIS
Hematopoiesis
Development
PTF1a
Pancreas
Bioinformatics
Fingerprint
OLIG3
Data-mining
OLIG1
bHLH42
Class II
Beta3 family
Mammalian 2-hybrid
In silico
Genome
Pattern matching
Online AccessGet full text
ISSN0925-4773
1872-6356
DOI10.1016/S0925-4773(03)00130-8

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Abstract Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to extrinsic and intrinsic signals. Furthermore, renewable pools of stem cells in adult tissues are subject to similar regulation. Basic helix–loop–helix (bHLH) proteins are a group of transcription factors that exert such a determinative influence on a variety of developmental pathways from C. elegans to humans, and we wished to exclusively identify novel members from within the whole human bHLH family. We have, therefore, developed an ‘empirical custom fingerprint’, to define the class II bHLH domain and exclusively identify these proteins in silico. We have identified nine previously uncharacterised human class II proteins, four of which were novel, by interrogating conceptual translations of the GenBank HTGS database. RT-PCR and mammalian 2-hybrid analysis of a subset of the factors demonstrated that they were indeed expressed, and were able to interact with an appropriate binding partner in vitro. Thus, we are now approaching an almost complete listing of human class II bHLH factors.
AbstractList Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to extrinsic and intrinsic signals. Furthermore, renewable pools of stem cells in adult tissues are subject to similar regulation. Basic helix-loop-helix (bHLH) proteins are a group of transcription factors that exert such a determinative influence on a variety of developmental pathways from C. elegans to humans, and we wished to exclusively identify novel members from within the whole human bHLH family. We have, therefore, developed an 'empirical custom fingerprint', to define the class II bHLH domain and exclusively identify these proteins in silico. We have identified nine previously uncharacterised human class II proteins, four of which were novel, by interrogating conceptual translations of the GenBank HTGS database. RT-PCR and mammalian 2-hybrid analysis of a subset of the factors demonstrated that they were indeed expressed, and were able to interact with an appropriate binding partner in vitro. Thus, we are now approaching an almost complete listing of human class II bHLH factors.
Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to extrinsic and intrinsic signals. Furthermore, renewable pools of stem cells in adult tissues are subject to similar regulation. Basic helix-loop-helix (bHLH) proteins are a group of transcription factors that exert such a determinative influence on a variety of developmental pathways from C. elegans to humans, and we wished to exclusively identify novel members from within the whole human bHLH family. We have, therefore, developed an 'empirical custom fingerprint', to define the class II bHLH domain and exclusively identify these proteins in silico. We have identified nine previously uncharacterised human class II proteins, four of which were novel, by interrogating conceptual translations of the GenBank HTGS database. RT-PCR and mammalian 2-hybrid analysis of a subset of the factors demonstrated that they were indeed expressed, and were able to interact with an appropriate binding partner in vitro. Thus, we are now approaching an almost complete listing of human class II bHLH factors.Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to extrinsic and intrinsic signals. Furthermore, renewable pools of stem cells in adult tissues are subject to similar regulation. Basic helix-loop-helix (bHLH) proteins are a group of transcription factors that exert such a determinative influence on a variety of developmental pathways from C. elegans to humans, and we wished to exclusively identify novel members from within the whole human bHLH family. We have, therefore, developed an 'empirical custom fingerprint', to define the class II bHLH domain and exclusively identify these proteins in silico. We have identified nine previously uncharacterised human class II proteins, four of which were novel, by interrogating conceptual translations of the GenBank HTGS database. RT-PCR and mammalian 2-hybrid analysis of a subset of the factors demonstrated that they were indeed expressed, and were able to interact with an appropriate binding partner in vitro. Thus, we are now approaching an almost complete listing of human class II bHLH factors.
Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to extrinsic and intrinsic signals. Furthermore, renewable pools of stem cells in adult tissues are subject to similar regulation. Basic helix–loop–helix (bHLH) proteins are a group of transcription factors that exert such a determinative influence on a variety of developmental pathways from C. elegans to humans, and we wished to exclusively identify novel members from within the whole human bHLH family. We have, therefore, developed an ‘empirical custom fingerprint’, to define the class II bHLH domain and exclusively identify these proteins in silico. We have identified nine previously uncharacterised human class II proteins, four of which were novel, by interrogating conceptual translations of the GenBank HTGS database. RT-PCR and mammalian 2-hybrid analysis of a subset of the factors demonstrated that they were indeed expressed, and were able to interact with an appropriate binding partner in vitro. Thus, we are now approaching an almost complete listing of human class II bHLH factors.
Author McLellan, Andrew S.
Langlands, Kenneth
Kealey, Terence
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Keywords ASCL5
MESP2
ASCL4
Basic helix–loop–helix
TCF24
TCF23
MIST1
Neurogenesis
Carcinogenesis
BHLHB4
BHLHB5
Insulin secretion
ATOH7
Embryogenesis
SCLERAXIS
Hematopoiesis
Development
PTF1a
Pancreas
Bioinformatics
Fingerprint
OLIG3
Data-mining
OLIG1
bHLH42
Class II
Beta3 family
Mammalian 2-hybrid
In silico
Genome
Pattern matching
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Snippet Cellular proliferation, specification and differentiation in developing tissues are tightly coordinated by groups of transcription factors in response to...
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SubjectTerms Amino Acid Sequence
Animals
ASCL4
ASCL5
ATOH7
Basic Helix-Loop-Helix Transcription Factors - metabolism
Basic helix–loop–helix
Beta3 family
bHLH42
BHLHB4
BHLHB5
Bioinformatics
Caenorhabditis elegans - metabolism
Carcinogenesis
Class II
Data-mining
Development
DNA-Binding Proteins - metabolism
Embryogenesis
Fingerprint
Genome
Helix-Loop-Helix Motifs
Hematopoiesis
Humans
In silico
Insulin secretion
Libraries, Digital
Mammalian 2-hybrid
MESP2
MIST1
Molecular Sequence Data
Neurogenesis
OLIG1
OLIG3
Pancreas
Pattern matching
PTF1a
SCLERAXIS
TCF23
TCF24
Transcription Factors - metabolism
Title Exhaustive identification of human class II basic helix–loop–helix proteins by virtual library screening
URI https://dx.doi.org/10.1016/S0925-4773(03)00130-8
https://www.ncbi.nlm.nih.gov/pubmed/14516699
https://www.proquest.com/docview/817618170
Volume 119
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