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1. Chromosome-scale genome assembly of the brown anole (Anolis sagrei), an emerging model species

Author

Anthony J. Geneva, Sungdae Park, Dan G. Bock, Pietro L. H. de Mello, Fatih Sarigol, Marc Tollis, Colin M. Donihue, R. Graham Reynolds, Nathalie Feiner, Ashley M. Rasys, James D. Lauderdale, Sergio G. Minchey, Aaron J. Alcala, Carlos R. Infante, Jason J. Kolbe, Dolph Schluter, Douglas B. Menke, and Jonathan B. Losos

Subjects
Biology (General), QH301-705.5
Abstract

A highly-complete chromosome-scale genome assembly of the brown anole, Anolis sagrei, provides insight into the evolution of sex chromosomes and is a crucial resource for this model lizard species.

Published
2022
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2. A PAGE screening approach for identifying CRISPR-Cas9-induced mutations in zebrafish

Author

Ariel J VanLeuven, Sungdae Park, Douglas B Menke, and James D Lauderdale

Subjects
Danio rerio, genotyping, polymerase chain reaction (PCR), Biology (General), QH301-705.5
Abstract

The introduction of CRISPR-Cas9 technology for targeted mutagenesis has revolutionized reverse genetics and made genome editing a realistic option in many model organisms. One of the difficulties with this technique is screening for mutations in large numbers of samples. Many screening approaches for identifying CRISPR-Cas9 mutants have been published; however, in practice these methods are time consuming, expensive, or often yield false positives. This report describes a PCR-based screening approach using non-denaturing PAGE. This approach does not depend on the formation of heteroduplexes and reliably detects changes as small as 1 base-pair (bp) in nucleic acid length at the target site. This approach can be used to identify novel mutations and is also useful as a routine genotyping method.

Published
2018
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3. CRISPR-Cas9 Gene Editing in Lizards through Microinjection of Unfertilized Oocytes

Author

Ashley M. Rasys, Sungdae Park, Rebecca E. Ball, Aaron J. Alcala, James D. Lauderdale, and Douglas B. Menke

Subjects
Biology (General), QH301-705.5
Abstract

Summary: CRISPR-Cas9-mediated gene editing has enabled the direct manipulation of gene function in many species. However, the reproductive biology of reptiles presents unique barriers for the use of this technology, and there are no reptiles with effective methods for targeted mutagenesis. Here, we demonstrate that the microinjection of immature oocytes within the ovaries of Anolis sagrei females enables the production of CRISPR-Cas9-induced mutations. This method is capable of producing F0 embryos and hatchlings with monoallelic or biallelic mutations. We demonstrate that these mutations can be transmitted through the germline to establish genetically modified strains of lizards. Direct tests of gene function can now be performed in Anolis lizards, an important model for studies of reptile evolution and development. : The reproductive biology of reptiles makes accessing single-cell embryos difficult and presents a major barrier for deploying gene-editing technologies in these species. Rasys et al. report that the microinjection of Cas9 RNP into immature lizard oocytes enables the production of lizards with targeted mutations. Keywords: Anolis, lizard, CRISPR, Cas9, gene editing, reptile, oocyte, tyrosinase

Published
2019
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4. Molecular shifts in limb identity underlie development of feathered feet in two domestic avian species

Author

Eric T Domyan, Zev Kronenberg, Carlos R Infante, Anna I Vickrey, Sydney A Stringham, Rebecca Bruders, Michael W Guernsey, Sungdae Park, Jason Payne, Robert B Beckstead, Gabrielle Kardon, Douglas B Menke, Mark Yandell, and Michael D Shapiro

Subjects
pigeon, limb, feathers, pitx1, tbx5, dinosaur, Medicine, Science, Biology (General), QH301-705.5
Abstract

Birds display remarkable diversity in the distribution and morphology of scales and feathers on their feet, yet the genetic and developmental mechanisms governing this diversity remain unknown. Domestic pigeons have striking variation in foot feathering within a single species, providing a tractable model to investigate the molecular basis of skin appendage differences. We found that feathered feet in pigeons result from a partial transformation from hindlimb to forelimb identity mediated by cis-regulatory changes in the genes encoding the hindlimb-specific transcription factor Pitx1 and forelimb-specific transcription factor Tbx5. We also found that ectopic expression of Tbx5 is associated with foot feathers in chickens, suggesting similar molecular pathways underlie phenotypic convergence between these two species. These results show how changes in expression of regional patterning genes can generate localized changes in organ fate and morphology, and provide viable molecular mechanisms for diversity in hindlimb scale and feather distribution.

Published
2016
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5. A new model for raf kinase inhibitory protein induced chemotherapeutic resistance.

Author

Fahd Al-Mulla, Milad S Bitar, Jingwei Feng, Sungdae Park, and Kam C Yeung

Subjects
Medicine, Science
Abstract

Therapeutic resistance remains the most challenging aspect of treating cancer. Raf kinase inhibitory protein (RKIP) emerged as a molecule capable of sensitizing cancerous cells to radio- and chemotherapy. Moreover, this small evolutionary conserved molecule, endows significant resistance to cancer therapy when its expression is reduced or lost. RKIP has been shown to inhibit the Raf-MEK-ERK, NFκB, GRK and activate the GSK3β signaling pathways. Inhibition of Raf-MEK-ERK and NFκB remains the most prominent pathways implicated in the sensitization of cells to therapeutic drugs. Our purpose was to identify a possible link between RKIP-KEAP 1-NRF2 and drug resistance. To that end, RKIP-KEAP 1 association was tested in human colorectal cancer tissues using immunohistochemistry. RKIP miRNA silencing and its inducible overexpression were employed in HEK-293 immortalized cells, HT29 and HCT116 colon cancer cell lines to further investigate our aim. We show that RKIP enhanced Kelch-like ECH-associated protein1 (KEAP 1) stability in colorectal cancer tissues and HT29 CRC cell line. RKIP silencing in immortalized HEK-293 cells (termed HEK-499) correlated significantly with KEAP 1 protein degradation and subsequent NRF2 addiction in these cells. Moreover, RKIP depletion in HEK-499, compared to control cells, bestowed resistance to supra physiological levels of H(2)O(2) and Cisplatin possibly by upregulating NF-E2-related nuclear factor 2 (NRF2) responsive genes. Similarly, we observed a direct correlation between the extent of apoptosis, after treatment with Adriamycin, and the expression levels of RKIP/KEAP 1 in HT29 but not in HCT116 CRC cells. Our data illuminate, for the first time, the NRF2-KEAP 1 pathway as a possible target for personalized therapeutic intervention in RKIP depleted cancers.

Published
2012
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6. Supplementary Figure 1 from Polycomb Protein EZH2 Regulates Tumor Invasion via the Transcriptional Repression of the Metastasis Suppressor RKIP in Breast and Prostate Cancer

Author

Kam C. Yeung, Ivana de la Serna, Ben Bonavida, Evan Keller, Fahd Al-Mulla, Stephanie Daignault, Rohit Mehra, Gabriel Fenteany, Anwar B. Beshir, Peter S. Bazeley, Sandy Beach, Sungdae Park, Jingwei Feng, Himangi Marathe, Stavroula Baritaki, and Gang Ren

Abstract

PDF file, 267KB, Supplementary figure 1. a) Heat maps of RKIP, EZH2, Snail and E-cad expression profiles obtained by interrogating publicly available DNA microarray expression datasets (33). The abbreviations are as follows: NAP: normal adjacent prostate tissue, BPH: benign prostate hyperplasia, PCA: prostate cancer adenocarcinoma, and MPC: metastatic prostate carcinoma. Rows correspond to individual genes and columns represent individual patients. Color density is arranged in order from greatest decrease in expression at left (red) to greatest increase at right (light yellow). EZH2 and Snail mRNA are strongly expressed in MPC, in contrast to RKIP and E-cad. b) DU145 or MDA-MB231 cells were infected with indicated siRNA expressing retroviruses. The siRNA expressing cells were assayed for their ability to proliferate in growth medium containing 0.3% agar and the formation of multi-cellular colonies. Colonies were stained with MTT and quantified after 21 days from plates in triplicate (lower panel). Data shown are representative of three independent experiments and are expressed as mean colony number per plate +/- s.d. c) The effect of the indicated siRNA on DU145 cells proliferation was assayed by direct cell counting. Quiescent cells were counted by coulter counter at the indicated times after stimulation with 20% FBS. Data shown are representative of three independent experiments.

Published
2023
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12. A single locus regulates a female-limited color pattern polymorphism in a reptile

Author

Nathalie, Feiner, Miguel, Brun-Usan, Pedro, Andrade, Robin, Pranter, Sungdae, Park, Douglas B, Menke, Anthony J, Geneva, and Tobias, Uller

Abstract

Animal coloration is often expressed in periodic patterns that can arise from differential cell migration, yet how these processes are regulated remains elusive. We show that a female-limited polymorphism in dorsal patterning (diamond/chevron) in the brown anole is controlled by a single Mendelian locus. This locus contains the gene

Published
2022

13. Chromosome-scale genome assembly of the brown anole (Anolis sagrei), an emerging model species

Author

Anthony J, Geneva, Sungdae, Park, Dan G, Bock, Pietro L H, de Mello, Fatih, Sarigol, Marc, Tollis, Colin M, Donihue, R Graham, Reynolds, Nathalie, Feiner, Ashley M, Rasys, James D, Lauderdale, Sergio G, Minchey, Aaron J, Alcala, Carlos R, Infante, Jason J, Kolbe, Dolph, Schluter, Douglas B, Menke, and Jonathan B, Losos

Subjects
Genome, Sex Chromosomes, X Chromosome, Animals, Lizards, Genomics
Abstract

Rapid technological improvements are democratizing access to high quality, chromosome-scale genome assemblies. No longer the domain of only the most highly studied model organisms, now non-traditional and emerging model species can be genome-enabled using a combination of sequencing technologies and assembly software. Consequently, old ideas built on sparse sampling across the tree of life have recently been amended in the face of genomic data drawn from a growing number of high-quality reference genomes. Arguably the most valuable are those long-studied species for which much is already known about their biology; what many term emerging model species. Here, we report a highly complete chromosome-scale genome assembly for the brown anole, Anolis sagrei - a lizard species widely studied across a variety of disciplines and for which a high-quality reference genome was long overdue. This assembly exceeds the vast majority of existing reptile and snake genomes in contiguity (N50 = 253.6 Mb) and annotation completeness. Through the analysis of this genome and population resequence data, we examine the history of repetitive element accumulation, identify the X chromosome, and propose a hypothesis for the evolutionary history of fusions between autosomes and the X that led to the sex chromosomes of A. sagrei.

Published
2021

14. Chromosome-scale genome assembly of the brown anole (Anolis sagrei), a model species for evolution and ecology

Author

Nathalie Feiner, Aaron J. Alcala, Ashley M. Rasys, Jonathan B. Losos, P. de Mello, Marc Tollis, Jason J. Kolbe, S. G. Minchey, C. Donihue, Doug Menke, Carlos Infante, Dan G. Bock, Anthony J. Geneva, James D. Lauderdale, Sungdae Park, Dolph Schluter, F. Sarigol, and Robert Graham Reynolds

Subjects
biology, Assembly software, Ecology, Ecology (disciplines), Sequence assembly, Tree of life, Brown anole, biology.organism_classification, Genome, Anolis, Reference genome
Abstract

Rapid technological improvements are democratizing access to high quality, chromosome-scale genome assemblies. No longer the domain of only the most highly studied model organisms, now non-traditional and emerging model species can be genome-enabled using a combination of sequencing technologies and assembly software. Consequently, old ideas built on sparse sampling across the tree of life have recently been amended in the face of genomic data drawn from a growing number of high-quality reference genomes. Arguably the most valuable are those long-studied species for which much is already known about their biology; what many term emerging model species. Here, we report a new, highly complete chromosome-scale genome assembly for the brown anole, Anolis sagrei – a lizard species widely studied across a variety of disciplines and for which a high-quality reference genome was long overdue.

Published
2021
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15. A PAGE screening approach for identifying CRISPR-Cas9-induced mutations in zebrafish

Author

Douglas B. Menke, James D. Lauderdale, Sungdae Park, and Ariel J. VanLeuven

Subjects
0301 basic medicine, Genotyping Techniques, ved/biology.organism_classification_rank.species, Mutagenesis (molecular biology technique), Computational biology, Biology, Polymerase Chain Reaction, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Genome editing, False positive paradox, Animals, CRISPR, Model organism, Genotyping, Zebrafish, 030102 biochemistry & molecular biology, ved/biology, DNA, Reverse genetics, Native Polyacrylamide Gel Electrophoresis, 030104 developmental biology, Mutation, Nucleic acid, CRISPR-Cas Systems, Biotechnology
Abstract

The introduction of CRISPR-Cas9 technology for targeted mutagenesis has revolutionized reverse genetics and made genome editing a realistic option in many model organisms. One of the difficulties with this technique is screening for mutations in large numbers of samples. Many screening approaches for identifying CRISPR-Cas9 mutants have been published; however, in practice these methods are time consuming, expensive, or often yield false positives. This report describes a PCR-based screening approach using non-denaturing PAGE. This approach does not depend on the formation of heteroduplexes and reliably detects changes as small as 1 base-pair (bp) in nucleic acid length at the target site. This approach can be used to identify novel mutations and is also useful as a routine genotyping method.

Published
2018
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16. PITX1 promotes chondrogenesis and myogenesis in mouse hindlimbs through conserved regulatory targets

Author

Jialiang S. Wang, Douglas B. Menke, Carlos Infante, and Sungdae Park

Subjects
0301 basic medicine, animal structures, Transcription, Genetic, Reptilian Proteins, SOX9, Hindlimb, Biology, Muscle Development, Article, Mice, 03 medical and health sciences, Gene expression, Animals, Paired Box Transcription Factors, Enhancer, Molecular Biology, Transcription factor, Gene, Homeodomain Proteins, Mice, Knockout, Mice, Inbred ICR, Myogenesis, Lizards, SOX9 Transcription Factor, Cell Biology, Chondrogenesis, Cell biology, 030104 developmental biology, Developmental Biology
Abstract

The PITX1 transcription factor is expressed during hindlimb development, where it plays a critical role in directing hindlimb growth and the specification of hindlimb morphology. While it is known that PITX1 regulates hindlimb formation, in part, through activation of the Tbx4 gene, other transcriptional targets remain to be elucidated. We have used a combination of ChIP-seq and RNA-seq to investigate enhancer regions and target genes that are directly regulated by PITX1 in embryonic mouse hindlimbs. In addition, we have analyzed PITX1 binding sites in hindlimbs of Anolis lizards to identify ancient PITX1 regulatory targets. We find that PITX1-bound regions in both mouse and Anolis hindlimbs are strongly associated with genes implicated in limb and skeletal system development. Gene expression analyses reveal a large number of misexpressed genes in the hindlimbs of Pitx1−/− mouse embryos. By intersecting misexpressed genes with genes that have neighboring mouse PITX1 binding sites, we identified 440 candidate targets of PITX1. Of these candidates, 68 exhibit ultra-conserved PITX1 binding events that are shared between mouse and Anolis hindlimbs. Among the ancient targets of PITX1 are important regulators of cartilage and skeletal muscle development, including Sox9 and Six1. Our data suggest that PITX1 promotes chondrogenesis and myogenesis in the hindlimb by direct regulation of several key members of the cartilage and muscle transcriptional networks.

Published
2018
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18. Pigeon foot feathering reveals conserved limb identity networks

Author

Elena F. Boer, Douglas B. Menke, Sungdae Park, Carlos Infante, Hannah F. Van Hollebeke, and Michael D. Shapiro

Subjects
animal structures, Limb Buds, Organogenesis, Mutant, Biology, Article, Transcriptome, 03 medical and health sciences, Limb bud, 0302 clinical medicine, Domestic pigeon, Gene expression, Forelimb, medicine, Morphogenesis, Limb development, media_common.cataloged_instance, Animals, Paired Box Transcription Factors, Allele, Columbidae, Molecular Biology, Gene, Transcription factor, 030304 developmental biology, media_common, Body Patterning, Regulation of gene expression, Homeodomain Proteins, 0303 health sciences, Foot, Gene Expression Regulation, Developmental, Extremities, Cell Biology, Feathers, Hindlimb, body regions, medicine.anatomical_structure, Evolutionary biology, T-Box Domain Proteins, 030217 neurology & neurosurgery, Developmental Biology, Signal Transduction
Abstract

The tetrapod limb is a stunning example of evolutionary diversity, with dramatic variation not only among distantly related species, but also between the serially homologous forelimbs (FLs) and hindlimbs (HLs) within species. Despite this variation, highly conserved genetic and developmental programs underlie limb development and identity in all tetrapods, raising the question of how limb diversification is generated from a conserved toolkit. In some breeds of domestic pigeon, shifts in the expression of two conserved limb identity transcription factors,PITX1andTBX5, are associated with the formation of feathered HLs with partial FL identity. To determine how modulation ofPITX1andTBX5expression affects downstream gene expression, we compared the transcriptomes of embryonic limb buds from pigeons with scaled and feathered HLs. We identified a set of differentially expressed genes enriched for genes encoding transcription factors, extracellular matrix proteins, and components of developmental signaling pathways with important roles in limb development. A subset of the genes that distinguish scaled and feathered HLs are also differentially expressed between FL and scaled HL buds in pigeons, pinpointing a set of gene expression changes downstream ofPITX1andTBX5in the partial transformation from HL to FL identity. We extended our analyses by comparing pigeon limb bud transcriptomes to chicken, anole lizard, and mammalian datasets to identify deeply conservedPITX1- andTBX5-regulated components of the limb identity program. Our analyses reveal a suite of predominantly low-level gene expression changes that are conserved across amniotes to regulate the identity of morphologically distinct limbs.Summary statementIn feather-footed pigeons, mutant alleles ofPITX1andTBX5drive the partial redeployment of an evolutionarily conserved forelimb genetic program in the hindlimb.

Published
2019

19. CRISPR-Cas9 Gene Editing in Lizards Through Microinjection of Unfertilized Oocytes

Author

James D. Lauderdale, Sungdae Park, Ashley M. Rasys, Douglas B. Menke, Rebecca Ball, and Aaron J. Alcala

Subjects
0301 basic medicine, Male, Mutagenesis (molecular biology technique), Computational biology, General Biochemistry, Genetics and Molecular Biology, Germline, Article, Anolis, 03 medical and health sciences, 0302 clinical medicine, Genome editing, Reproductive biology, Animals, CRISPR, lcsh:QH301-705.5, Microinjection, Gene, 030304 developmental biology, Genetics, Gene Editing, 0303 health sciences, biology, Cas9, Gene Transfer Techniques, Lizards, biology.organism_classification, Genetically modified organism, 030104 developmental biology, lcsh:Biology (General), Mutation, Oocytes, Female, CRISPR-Cas Systems, 030217 neurology & neurosurgery, Function (biology)
Abstract

Summary: CRISPR-Cas9-mediated gene editing has enabled the direct manipulation of gene function in many species. However, the reproductive biology of reptiles presents unique barriers for the use of this technology, and there are no reptiles with effective methods for targeted mutagenesis. Here, we demonstrate that the microinjection of immature oocytes within the ovaries of Anolis sagrei females enables the production of CRISPR-Cas9-induced mutations. This method is capable of producing F0 embryos and hatchlings with monoallelic or biallelic mutations. We demonstrate that these mutations can be transmitted through the germline to establish genetically modified strains of lizards. Direct tests of gene function can now be performed in Anolis lizards, an important model for studies of reptile evolution and development. : The reproductive biology of reptiles makes accessing single-cell embryos difficult and presents a major barrier for deploying gene-editing technologies in these species. Rasys et al. report that the microinjection of Cas9 RNP into immature lizard oocytes enables the production of lizards with targeted mutations. Keywords: Anolis, lizard, CRISPR, Cas9, gene editing, reptile, oocyte, tyrosinase

Published
2019
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21. Bypassing Glutamic Acid Decarboxylase 1 (Gad1) Induced Craniofacial Defects with a Photoactivatable Translation Blocker Morpholino

Author

Rebecca Ball, Kyle T. Harris, A Tyler Page, Davide Deodato, Lindsey L Beebe, Sungdae Park, Matthew J. O'Connor, James D. Lauderdale, Ariel J. VanLeuven, Timothy M. Dore, and Vani Hariharan

Subjects
Morpholino, Microinjections, Physiology, Cognitive Neuroscience, Cell, Glutamate decarboxylase, Biochemistry, GAD1, Morpholinos, Craniofacial Abnormalities, 03 medical and health sciences, 0302 clinical medicine, medicine, (8-cyano-7-hydroxyquinolin-2-yl)methyl, Animals, γ-amino butyric acid, Zebrafish, (8-bromo-7-hydroxyquinolin-2-yl)methyl, 030304 developmental biology, Glutamic acid decarboxylase, 0303 health sciences, Gene knockdown, biology, Chemistry, Glutamate Decarboxylase, Glutamate receptor, Wild type, Cell Biology, General Medicine, biology.organism_classification, GABAergic signaling, Cell biology, photoactivated morpholino, medicine.anatomical_structure, 030217 neurology & neurosurgery, Research Article
Abstract

γ-Amino butyric acid (GABA) mediated signaling is critical in the central and enteric nervous systems, pancreas, lungs, and other tissues. It is associated with many neurological disorders and craniofacial development. Glutamic acid decarboxylase (GAD) synthesizes GABA from glutamate, and knockdown of the gad1 gene results in craniofacial defects that are lethal in zebrafish. To bypass this and enable observation of the neurological defects resulting from knocking down gad1 expression, a photoactivatable morpholino oligonucleotide (MO) against gad1 was prepared by cyclization with a photocleavable linker rendering the MO inactive. The cyclized MO was stable in the dark and toward degradative enzymes and was completely linearized upon brief exposure to 405 nm light. In the course of investigating the function of the ccMOs in zebrafish, we discovered that zebrafish possess paralogous gad1 genes, gad1a and gad1b. A gad1b MO injected at the 1-4 cell stage caused severe morphological defects in head development, which could be bypassed, enabling the fish to develop normally, if the fish were injected with a photoactivatable, cyclized gad1b MO and grown in the dark. At 1 day post fertilization (dpf), light activation of the gad1b MO followed by observation at 3 and 7 dpf led to increased and abnormal electrophysiological brain activity compared to wild type animals. The photocleavable linker can be used to cyclize and inactivate any MO, and represents a general strategy to parse the function of developmentally important genes in a spatiotemporal manner.

Published
2018

23. Isl1 mediates mesenchymal expansion in the developing external genitalia via regulation of Bmp4, Fgf10 and Wnt5a

Author

Douglas B. Menke, Ophir D. Klein, Wen Du, Carlos Infante, Saunders T. Ching, Sungdae Park, and Amnon Sharir

Subjects
0301 basic medicine, Male, Organogenesis, Bone Morphogenetic Protein 4, Fibroblast growth factor, Medical and Health Sciences, Mesoderm, Mice, 0302 clinical medicine, 2.1 Biological and endogenous factors, Developmental, Aetiology, Genetics (clinical), Pediatric, Genetics & Heredity, Regulation of gene expression, Mice, Knockout, Wnt signaling pathway, Gene Expression Regulation, Developmental, General Medicine, Articles, Biological Sciences, Cell biology, medicine.anatomical_structure, Female, Signal Transduction, Urologic Diseases, Knockout, 1.1 Normal biological development and functioning, Mesenchyme, LIM-Homeodomain Proteins, Renal and urogenital, Embryonic Development, Biology, Wnt-5a Protein, 03 medical and health sciences, Underpinning research, Genetics, medicine, Animals, Genitalia, Genital tubercle, Molecular Biology, Human Genome, Bladder Exstrophy, medicine.disease, Bladder exstrophy, 030104 developmental biology, Gene Expression Regulation, Urogenital Abnormalities, ISL1, Homeobox, Fibroblast Growth Factor 10, 030217 neurology & neurosurgery, Transcription Factors
Abstract

Genital malformations are among the most common human birth defects, and both genetic and environmental factors can contribute to these malformations. Development of the external genitalia in mammals relies on complex signaling networks, and disruption of these signaling pathways can lead to genital defects. Islet-1 (ISL1), a member of the LIM/Homeobox family of transcription factors, has been identified as a major susceptibility gene for classic bladder exstrophy in humans, a common form of the bladder exstrophy-epispadias complex (BEEC), and is implicated in a role in urinary tract development. We report that deletion of Isl1 from the genital mesenchyme in mice led to hypoplasia of the genital tubercle and prepuce, with an ectopic urethral opening and epispadias-like phenotype. These mice also developed hydroureter and hydronephrosis. Identification of ISL1 transcriptional targets via ChIP-Seq and expression analyses revealed that Isl1 regulates several important signaling pathways during embryonic genital development, including the BMP, WNT, and FGF cascades. An essential function of Isl1 during development of the external genitalia is to induce Bmp4-mediated apoptosis in the genital mesenchyme. Together, these studies demonstrate that Isl1 plays a critical role during development of the external genitalia and forms the basis for a greater understanding of the molecular mechanisms underlying the pathogenesis of BEEC and urinary tract defects in humans.

Published
2017

25. Conserved regulation ofhoxc11by pitx1 inAnolislizards

Author

Laura C. Rivera-Davila, Carlos Infante, Sungdae Park, and Douglas B. Menke

Subjects
animal structures, Gene regulatory network, Anatomy, Hindlimb, Biology, biology.organism_classification, Anolis, Cell biology, body regions, medicine.anatomical_structure, Gene expression, Genetics, medicine, Molecular Medicine, Limb development, Animal Science and Zoology, Ectopic expression, Forelimb, Gene, Ecology, Evolution, Behavior and Systematics, Developmental Biology
Abstract

Anolis lizards are an emerging model system for the study of limb development and evolution, but very little is known concerning the regulatory interactions that control limb patterning differences among Anolis species or what regulatory interactions are deeply conserved between Anolis and other tetrapod groups. Here we report the establishment of an embryonic limb micromass culture system that enables functional studies of forelimb and hindlimb gene regulatory networks in Anolis. Characterization of this culture system demonstrated that embryonic forelimb and hindlimb micromasses from different Anolis species are easy to sustain in culture for weeks, and the expression of forelimb and hindlimb-specific gene expression patterns are maintained for at least 8 days in culture. We tested the ability of this system to explore regulatory linkages between transcription factors and their putative target genes through the ectopic expression of a hindlimb-specific transcription factor, pitx1, in forelimb micromasses. We found that pitx1 expression in forelimb cells is sufficient to strongly induce the expression of hoxc11, a gene that normally exhibits hindlimb-restricted expression. J. Exp. Zool. (Mol. Dev. Evol.) 322B: 156–165, 2014. © 2013 Wiley Periodicals, Inc.

Published
2013
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26. Molecular shifts in limb identity underlie development of feathered feet in two domestic avian species

Author

Sydney A. Stringham, Gabrielle Kardon, Douglas B. Menke, Robert B. Beckstead, Mark Yandell, Jason Payne, Eric T. Domyan, Rebecca Bruders, Anna I. Vickrey, Zev N. Kronenberg, Michael W Guernsey, Carlos Infante, Sungdae Park, and Michael D. Shapiro

Subjects
0301 basic medicine, animal structures, QH301-705.5, Science, Hindlimb, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, pigeon, Forelimb, medicine, Animals, Biology (General), Columbidae, Gene, Transcription factor, limb, pitx1, General Immunology and Microbiology, General Neuroscience, dinosaur, food and beverages, General Medicine, Anatomy, Feathers, Phenotype, Chicken, 030104 developmental biology, medicine.anatomical_structure, Developmental Biology and Stem Cells, Genomics and Evolutionary Biology, Gene Expression Regulation, Evolutionary biology, Feather, visual_art, visual_art.visual_art_medium, Medicine, Ectopic expression, Other, tbx5, Developmental biology, Chickens, Research Article, Transcription Factors
Abstract

Birds display remarkable diversity in the distribution and morphology of scales and feathers on their feet, yet the genetic and developmental mechanisms governing this diversity remain unknown. Domestic pigeons have striking variation in foot feathering within a single species, providing a tractable model to investigate the molecular basis of skin appendage differences. We found that feathered feet in pigeons result from a partial transformation from hindlimb to forelimb identity mediated by cis-regulatory changes in the genes encoding the hindlimb-specific transcription factor Pitx1 and forelimb-specific transcription factor Tbx5. We also found that ectopic expression of Tbx5 is associated with foot feathers in chickens, suggesting similar molecular pathways underlie phenotypic convergence between these two species. These results show how changes in expression of regional patterning genes can generate localized changes in organ fate and morphology, and provide viable molecular mechanisms for diversity in hindlimb scale and feather distribution. DOI: http://dx.doi.org/10.7554/eLife.12115.001, eLife digest Animals ranging from fish to birds display dramatic diversity within and among species; yet remarkably little is known about the genetic and developmental mechanisms that underlie this variation. In birds and their extinct dinosaur relatives, the distribution of scales and feathers on the feet is a highly variable trait. Different breeds of domestic pigeon all belong to the same species but have feet that can be feathery or scaly to different extents. Classical genetics experiments suggested that only a few genes are involved in the transition from scaled to feathered skin on the feet of pigeons. However, the molecular basis for this transition was unknown. Domyan et al. set out to identify the genes involved in the transition from scaled to feathered feet by mating different breeds of pigeon in the laboratory and then sequencing the birds’ DNA. They also surveyed the entire DNA sequences of many additional pigeon breeds with and without feathered feet. This combined approach showed that two regions of the pigeon genome have a profound effect on the number and size of feathers on the feet of domestic pigeons. These regions contain genes that are known to play key roles in controlling the growth of a limb and whether it develops into a leg or a wing. In developing pigeon embryos, Domyan et al. found that a gene called Pitx1, which is typically considered a hindlimb gene, is expressed at lower levels in the developing legs of breeds with feathered feet than in a breed with scaled feet. The experiments also showed that Tbx5, a gene that is expressed in the forelimbs of many animals, is expressed abnormally in the embryonic hindlimbs of breeds of pigeon and chicken with feathery feet. Together, these findings suggest that the hindlimbs of domestic birds with feathery feet are more like wings at the molecular level, which results in them being covered in feathers rather than scales. Future work will now aim to discover the specific DNA sequences that alter the expression of Pitx1 and Tbx5 in feather-footed breeds, and whether the same genes control the foot feathers of other species of birds. DOI: http://dx.doi.org/10.7554/eLife.12115.002

Published
2016

28. The RKIP (Raf-1 Kinase Inhibitor Protein) conserved pocket binds to the phosphorylated N-region of Raf-1 and inhibits the Raf-1-mediated activated phosphorylation of MEK

Author

Huihui Tang, R. Leo Brady, Mark J. Banfield, Yie Chia Lee, Sungdae Park, Kam C. Yeung, Oliver Rath, John David Dignam, Walter Kolch, and John M. Sedivy

Subjects
Models, Molecular, MAP Kinase Signaling System, Protein Conformation, Mutant, Phosphatidylethanolamine Binding Protein, Biology, Inhibitory postsynaptic potential, Chlorocebus aethiops, Animals, Humans, Phosphorylation, Conserved Sequence, Mitogen-Activated Protein Kinase Kinases, Binding Sites, Kinase, Phosphopeptide, Cell Biology, Inhibitor protein, Phenotype, Recombinant Proteins, Cell biology, Proto-Oncogene Proteins c-raf, Amino Acid Substitution, Biochemistry, COS Cells, Mutagenesis, Site-Directed, Signal transduction, Signal Transduction
Abstract

The Raf-MEK-ERK pathway regulates many fundamental biological processes, and its activity is finely tuned at multiple levels. The Raf kinase inhibitory protein (RKIP) is a widely expressed negative modulator of the Raf-MEK-ERK signaling pathway. We have previously shown that RKIP inhibits the phosphorylation of MEK by Raf-1 through interfering with the formation of a kinase-substrate complex by direct binding to both Raf-1 and MEK. Here, we show that the evolutionarily conserved ligand-binding pocket of RKIP is required for its inhibitory activity towards the Raf-1 kinase mediated activation of MEK. Single amino acid substitutions of two of the conserved residues form the base and the wall of the pocket confers a loss-of-function phenotype on RKIP. Loss-of-function RKIP mutants still appear to bind to Raf-1. However the stability of the complexes formed between mutants and the N-region Raf-1 phosphopeptide were drastically reduced. Our results therefore suggest that the RKIP conserved pocket may constitute a novel phosphoamino-acid binding motif and is absolutely required for RKIP function.

Published
2008
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29. Author response: Molecular shifts in limb identity underlie development of feathered feet in two domestic avian species

Author

Robert B. Beckstead, Douglas B. Menke, Gabrielle Kardon, Carlos Infante, Sydney A. Stringham, Anna I. Vickrey, Sungdae Park, Rebecca Bruders, Michael W Guernsey, Eric T. Domyan, Mark Yandell, Zev N. Kronenberg, Jason Payne, and Michael D. Shapiro

Subjects
Domestic avian species, Evolutionary biology, Identity (social science), Biology
Published
2016
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30. Snail is a repressor of RKIP transcription in metastatic prostate cancer cells

Author

Kam C. Yeung, Sandra M. Beach, Evan T. Keller, Sungdae Park, Huihui Tang, Amardeep S. Dhillon, and Walter Kolch

Subjects
Male, Cancer Research, Transcription, Genetic, Matched-Pair Analysis, Down-Regulation, Repressor, Phosphatidylethanolamine Binding Protein, Snail, Transfection, medicine.disease_cause, Article, Metastasis, Prostate cancer, biology.animal, Databases, Genetic, parasitic diseases, Tumor Cells, Cultured, Genetics, medicine, Humans, Neoplasm Metastasis, Promoter Regions, Genetic, Molecular Biology, Oligonucleotide Array Sequence Analysis, biology, Gene Expression Profiling, Prostatic Neoplasms, Cancer, medicine.disease, Gene Expression Regulation, Neoplastic, Repressor Proteins, DNA methylation, Immunology, Disease Progression, Cancer research, Snail Family Transcription Factors, Carcinogenesis, Metastasis Suppressor Protein, Transcription Factors
Abstract

Diminished expression of the metastasis suppressor protein RKIP was previously reported in a number of cancers. The underlying mechanism remains unknown. Here, we show that the expression of RKIP negatively correlates with that of Snail zinc-transcriptional repressor, a key modulator of normal and neoplastic epithelial-mesenchymal transition (EMT) program. With a combination of loss-of-function and gain-of-function approaches, we showed that Snail repressed the expression of RKIP in metastatic prostate cancer cell lines. The effect of Snail on RKIP was on the level of transcriptional initiation and mediated by a proximal E-box on the RKIP promoter. Our results therefore suggest that RKIP is a novel component of the Snail transcriptional regulatory network important for the progression and metastasis of cancer.

Published
2007
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31. Reduction of Ethyl Benzoylacetate and Selective Protection of 2-(3-Hydroxy-1-phenylpropyl)-4-methylphenol: A New and Facile Synthesis of Tolterodine

Author

Dae-Jong Park, Jungnam Ko, Hakjune Rhee, Kathlia A. De Castro, and Sungdae Park

Subjects
Reduction (complexity), Sodium borohydride, chemistry.chemical_compound, chemistry, Organic Chemistry, medicine, Methanol, Tolterodine, Physical and Theoretical Chemistry, Alkylation, Medicinal chemistry, medicine.drug
Abstract

A new and facile synthesis of tolterodine using ethyl benzoylacetate as the starting material was developed. Reduction using sodium borohydride in methanol followed by Friedel–Crafts alkylation uti...

Published
2007
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32. RKIP downregulates B-Raf kinase activity in melanoma cancer cells

Author

Kam C. Yeung, Janiel M. Shields, Sungdae Park, Miranda L Yeung, and Sandy Beach

Subjects
Proto-Oncogene Proteins B-raf, Gene isoform, Cancer Research, Skin Neoplasms, Immunoprecipitation, Cell, Down-Regulation, Phosphatidylethanolamine Binding Protein, Saccharomyces cerevisiae, Biology, medicine.disease_cause, Androgen-Binding Protein, Tumor Cells, Cultured, Genetics, medicine, Humans, Kinase activity, Melanoma, Molecular Biology, Kinase, Cell biology, Gene Expression Regulation, Neoplastic, medicine.anatomical_structure, Immunology, Melanocytes, Ectopic expression, Signal transduction, Carcinogenesis, Signal Transduction
Abstract

The Raf-MEK-ERK protein kinase cascade is a highly conserved signaling pathway that is pivotal in relaying environmental cues from the cell surface to the nucleus. Three Raf isoforms, which share great sequence and structure similarities, have been identified in mammalian cells. We have previously identified Raf kinase inhibitor protein (RKIP) as a negative regulator of the Raf-MEK-ERK signaling pathway by specifically binding to the Raf-1 isoform. We show here that RKIP also antagonizes kinase activity of the B-Raf isoform. Yeast two-hybrid and coimmunoprecipitation experiments indicated that RKIP specifically interacted with B-Raf. Ectopic expression of RKIP antagonized the kinase activity of B-Raf. We showed that the effects of RKIP on B-Raf functions were independent of its known inhibitory action on Raf-1. The expression levels of RKIP in melanoma cancer cell lines are low relative to primary melanocytes. Forced expression of RKIP partially reverted the oncogenic B-Raf kinase-transformed melanoma cancer cell line SK-Mel-28. The low expression of RKIP and its antagonistic action on B-Raf suggests that RKIP may play an important role in melanoma turmorgenesis.

Published
2005
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33. Engineering the serine/threonine protein kinase Raf-1 to utilise an orthogonal analogue of ATP substituted at theN6position

Author

Alison D. Hindley, Yanli Wang, Kevan M. Shokat, Walter Kolch, Lily Wang, John M. Sedivy, Kavita Shah, Kam C. Yeung, Xiche Hu, and Sungdae Park

Subjects
Molecular Sequence Data, Biophysics, Serine threonine protein kinase, Spodoptera, Mitogen-activated protein kinase kinase, Biochemistry, Cell Line, Substrate Specificity, MAP2K7, 03 medical and health sciences, Adenosine Triphosphate, 0302 clinical medicine, Genes, Reporter, Structural Biology, Genetics, Animals, Amino Acid Sequence, c-Raf, Phosphorylation, Luciferases, Orthogonal ATP analogue, Molecular Biology, 030304 developmental biology, Serine/threonine-specific protein kinase, 0303 health sciences, Binding Sites, Sequence Homology, Amino Acid, MAP kinase kinase kinase, biology, N6(2-phenethyl) ATP, Cyclin-dependent kinase 2, Cell Biology, Precipitin Tests, Raf-1, Recombinant Proteins, Cell biology, Proto-Oncogene Proteins c-raf, Amino Acid Substitution, 030220 oncology & carcinogenesis, COS Cells, Mitogen-activated protein kinase/ERK kinase, biology.protein, ATP binding pocket, Cyclin-dependent kinase 9, Extracellular signal-regulated kinase, Mitogen-Activated Protein Kinases, Sequence Alignment
Abstract

One key area of protein kinase research is the identification of cognate substrates. The search for substrates is hampered by problems in unambiguously assigning substrates to a particular kinase in vitro and in vivo. One solution to this impasse is to engineer the kinase of interest to accept an ATP analogue which is orthogonal (unable to fit into the ATP binding site) for the wild-type enzyme and the majority of other kinases. The acceptance of structurally modified, gamma-(32)P-labelled, nucleotide analogue by active site-modified kinase can provide a unique handle by which the direct substrates of any particular kinase can be displayed in crude mixtures or cell lysates. We have taken this approach with the serine/threonine kinase Raf-1, which plays an essential role in the transduction of stimuli through the Ras-->Raf-->MEK-->ERK/MAP kinase cascade. This cascade plays essential roles in proliferation, differentiation and apoptosis. Here we detail the mutagenesis strategy for the ATP binding pocket of Raf-1, such that it can utilise an N(6)-substituted ATP analogue. We show that these mutations do not alter the substrate specificity and signal transduction through Raf-1. We screen a library of analogues to identify which are orthogonal for Raf-1, and show that mutant Raf-1 can utilise the orthogonal analogue N(6)(2-phenethyl) ATP in vitro to phosphorylate its currently only accepted substrate MEK. Importantly we show that our approach can be used to tag putative direct substrates of Raf-1 kinase with (32)P-N(6)(2-phenethyl) ATP in cell lysates.

Published
2003
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34. Biochemical Evidence for Multiple Dimeric States of theSinorhizobium melilotiDctD Receiver Domain

Author

B. Tracy Nixon, A. Daniel Jones, Hong Zhang, and Sungdae Park

Subjects
Stereochemistry, ATPase, Crystal structure, Crystallography, X-Ray, Biochemistry, Protein Structure, Secondary, Structure-Activity Relationship, Bacterial Proteins, Phosphorylation, Nuclear Magnetic Resonance, Biomolecular, Sinorhizobium meliloti, biology, Circular Dichroism, biology.organism_classification, Peptide Fragments, Protein Structure, Tertiary, Solutions, Spectrometry, Fluorescence, Bacterial Proton-Translocating ATPases, Spectrophotometry, Domain (ring theory), biology.protein, bacteria, Dimerization, Ultracentrifugation, Transcription Factors
Abstract

X-ray crystal structures suggest very different dimeric states for the inactive and active forms of the two-component receiver domain of Sinorhizobium meliloti DctD, a sigma(54)-dependent AAA+ ATPase. Moreover, the receiver domain in crystals grown from unphosphorylated protein is refractory to phosphorylation whereas solution protein is fully phosphorylatable, and equilibrium analytical ultracentrifugation data are consistent with solution dimers for both phosphorylated and unphosphorylated forms of the protein. Here we report biochemical data consistent with the presence of multiple dimeric conformations in the inactive and active states, and evidence for significant change in the dimeric state upon activation by phosphorylation or binding of Mg(2+) and BeF(3)(-).

Published
2002
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35. Conserved regulation of hoxc11 by pitx1 in Anolis lizards

Author

Sungdae, Park, Carlos R, Infante, Laura C, Rivera-Davila, and Douglas B, Menke

Subjects
Tissue Culture Techniques, Genes, Homeobox, Animals, Gene Expression Regulation, Developmental, Paired Box Transcription Factors, Extremities, Lizards, Transfection, Body Patterning
Abstract

Anolis lizards are an emerging model system for the study of limb development and evolution, but very little is known concerning the regulatory interactions that control limb patterning differences among Anolis species or what regulatory interactions are deeply conserved between Anolis and other tetrapod groups. Here we report the establishment of an embryonic limb micromass culture system that enables functional studies of forelimb and hindlimb gene regulatory networks in Anolis. Characterization of this culture system demonstrated that embryonic forelimb and hindlimb micromasses from different Anolis species are easy to sustain in culture for weeks, and the expression of forelimb and hindlimb-specific gene expression patterns are maintained for at least 8 days in culture. We tested the ability of this system to explore regulatory linkages between transcription factors and their putative target genes through the ectopic expression of a hindlimb-specific transcription factor, pitx1, in forelimb micromasses. We found that pitx1 expression in forelimb cells is sufficient to strongly induce the expression of hoxc11, a gene that normally exhibits hindlimb-restricted expression.

Published
2013

36. Clinical implications for loss or diminution of expression of Raf-1 kinase inhibitory protein and its phosphorylated form in ductal breast cancer

Author

Fahd, Al-Mulla, Milad S, Bitar, Jean Paul, Thiery, Tan Tuan, Zea, Devasis, Chatterjee, Lindsay, Bennett, Sungdae, Park, Joanne, Edwards, and Kam C, Yeung

Subjects
Original Article
Abstract

Raf Kinase inhibitory protein (RKIP) is a well-established metastasis suppressor that is frequently downregulated in aggressive cancers. The impact of RKIP and its phosphorylated form on disease-free survival (DFS) and other clinicopathological parameters in breast cancer is yet to be discovered. To this end, we examined RKIP expression in 3 independent breast cancer cohorts. At the Protein level, loss or reduced total RKIP expression was associated with large-sized tumors characterized by high proliferative index, high-grade and diminished estrogen (ER) and progesterone receptor expression. Loss or diminution of RKIP expression was significantly associated with shorter DFS in all cohorts. Moreover, the complete loss of p-RKIP was an independent prognostic factor using multivariate analysis in operable invasive ductal breast cancer. We show for the first time that ER, partly, drives RKIP expression through MTA3-Snail axis. Consistent with this finding, we found that, at the mRNA level, RKIP expression varied significantly across the different molecular subtypes of breast cancer with the Luminal (ER+) subtype expressing high levels of RKIP and the more aggressive Claudin-low (ER-) subtype, which depicted the highest epithelial to mesenchymal transition (EMT) registered the lowest RKIP expression levels. In conclusion, loss of expression/diminution of RKIP or its phosphorylated form is associated with poor diseases-free survival in breast cancer. Determining the expression of RKIP and p-RKIP adds significant prognostic value to the management and subtyping of this disease.

Published
2013

37. Polycomb protein EZH2 regulates tumor invasion via the transcriptional repression of the metastasis suppressor RKIP in breast and prostate cancer

Author

Stavroula Baritaki, Sungdae Park, Peter S. Bazeley, Evan T. Keller, Sandy Beach, Jingwei Feng, Fahd Al-Mulla, Ivana L. de la Serna, Kam C. Yeung, Himangi Marathe, Stephanie Daignault, Rohit Mehra, Ben Bonavida, Gang Ren, Gabriel Fenteany, and Anwar B. Beshir

Subjects
Male, Cancer Research, Breast Neoplasms, Phosphatidylethanolamine Binding Protein, macromolecular substances, Biology, Metastasis, Histones, Cell Line, Tumor, Histone methylation, medicine, Humans, Metastasis suppressor, Enhancer of Zeste Homolog 2 Protein, Genes, Tumor Suppressor, Neoplasm Invasiveness, Neoplasm Metastasis, RNA, Small Interfering, Promoter Regions, Genetic, EZH2, Polycomb Repressive Complex 2, Nuclear Proteins, Prostatic Neoplasms, medicine.disease, Neoplasm Proteins, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, MicroRNAs, Oncology, Tumor progression, Histone methyltransferase, Cancer research, biology.protein, Female, RNA Interference, Histone deacetylase, PRC2, Carrier Proteins, Transcription Factors
Abstract

Epigenetic modifications such as histone methylation play an important role in human cancer metastasis. Enhancer of zeste homolog 2 (EZH2), which encodes the histone methyltransferase component of the polycomb repressive complex 2 (PRC2), is overexpressed widely in breast and prostate cancers and epigenetically silences tumor suppressor genes. Expression levels of the novel tumor and metastasis suppressor Raf-1 kinase inhibitor protein (RKIP) have been shown to correlate negatively with those of EZH2 in breast and prostate cell lines as well as in clinical cancer tissues. Here, we show that the RKIP/EZH2 ratio significantly decreases with the severity of disease and is negatively associated with relapse-free survival in breast cancer. Using a combination of loss- and gain-of-function approaches, we found that EZH2 negatively regulated RKIP transcription through repression-associated histone modifications. Direct recruitment of EZH2 and suppressor of zeste 12 (Suz12) to the proximal E-boxes of the RKIP promoter was accompanied by H3-K27-me3 and H3-K9-me3 modifications. The repressing activity of EZH2 on RKIP expression was dependent on histone deacetylase promoter recruitment and was negatively regulated upstream by miR-101. Together, our findings indicate that EZH2 accelerates cancer cell invasion, in part, via RKIP inhibition. These data also implicate EZH2 in the regulation of RKIP transcription, suggesting a potential mechanism by which EZH2 promotes tumor progression and metastasis. Cancer Res; 72(12); 3091–104. ©2012 AACR.

Published
2012

38. Two‐component signaling in the AAA+ ATPase DctD: binding Mg 2+ and BeF 3 selects between alternative dimeric states of the receiver domain

Author

Neela H. Yennawar, Hemant P. Yennawar, A. Daniel Jones, B. Tracy Nixon, Sungdae Park, and Matthew G. Meyer

Subjects
Models, Molecular, ATPase, Models, Biological, Biochemistry, Fluorides, chemistry.chemical_compound, Protein structure, Bacterial Proteins, RNA polymerase, Genetics, Magnesium, Molecular Biology, Adenosine Triphosphatases, Sinorhizobium meliloti, biology, biology.organism_classification, AAA proteins, Protein Structure, Tertiary, chemistry, Domain (ring theory), biology.protein, Biophysics, Phosphorylation, Beryllium, Dimerization, Linker, Signal Transduction, Transcription Factors, Biotechnology
Abstract

A Crystallogral structure is described for the Mg2+-BeF3--bound receiver domain of Sinorhizobium meliloti DctD bearing amino acid substitution E121K. Differences between the apo- and ligand-bound active sites are similar to those reported for other receiver domains. However, the off and on states of the DctD receiver domain are characterized by dramatically different dimeric structures, which supports the following hypothesis of signal transduction. In the off state, the receiver domain and coiled-coil linker form a dimer that inhibits oligomerization of the AAA+ ATPase domain. In this conformation, the receiver domain cannot be phosphorylated or bind Mg2+ and BeF3-. Instead, these modifications stabilize an alternative dimeric conformation that repositions the subunits by approximately 20 A, thus replacing the a4-b5-a5 interface with an a4-b5 interface. Reoriented receiver domains permit the ATPase domain to oligomerize and stimulate open complex formation by the s54 form of RNA polymerase. NtrC, which shares 38% sequence identity with DctD, works differently. Its activated receiver domain must facilitate oligomerization of its ATPase domain. Significant differences exist in the signaling surfaces of the DctD and NtrC receiver domains that may help explain how triggering the common two-component switch can variously regulate assembly of a AAA+ ATPase domain.

Published
2002
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40. A dimeric two‐component receiver domain inhibits the σ54‐dependent ATPase in DctD

Author

R. Ilene Kaufman, Sungdae Park, Gregory K. Farber, Mike McKINSTRY, Mark Staley, Dalai Yan, Lori Zeringue, Neela H. Yennawar, Matthew G. Meyer, B. Tracy Nixon, Hemant P. Yennawar, and Hong Zhang

Subjects
ATPase, Sigma Factor, Biology, Crystallography, X-Ray, Biochemistry, DNA-binding protein, Protein structure, Bacterial Proteins, Enhancer binding, Genetics, Phosphorylation, Molecular Biology, Adenosine Triphosphatases, DNA-Directed RNA Polymerases, DNA-binding domain, Protein Structure, Tertiary, Cell biology, DNA-Binding Proteins, Response regulator, biology.protein, Signal transduction, Dimerization, RNA Polymerase Sigma 54, Signal Transduction, Transcription Factors, Biotechnology
Abstract

SPECIFIC AIMTwo-component signal transduction systems control a variety of behaviors such as adaptation to altered osmolarity, chemotaxis, nutrient acquisition, beneficial and harmful symbioses, and complex development pathways. Here we explore the structural basis of signal transduction in DctD, a two-component response regulator and bacterial enhancer binding protein that is essential for biological nitrogen fixation by Sinorhizobium meliloti.PRINCIPAL FINDINGSThe DctD protein has three domains: an amino-terminal regulatory domain; a central ς54-dependent ATPase domain; and a carboxyl-terminal DNA binding domain. Earlier studies showed that the carboxyl-terminal third of the DctD receiver domain exerts a negative affect on its central ATPase domain. Phosphorylation of the receiver domain overcomes this inhibition via an unknown mechanism.1. DctD (2–143) fragment is phosphorylatable and shows catalytic autodephosphorylationFunctional studies and sequence alignments define the end of the receiver domain a...

Published
2001
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41. MFCM for Nonlinear Blind Channel Equalization

Author

Sungdae Park, Witold Pedrycz, and Soowhan Han

Subjects
Mathematical optimization, symbols.namesake, Nonlinear system, Fitness function, Radial basis function network, Channel (digital image), Gaussian noise, Simulated annealing, Genetic algorithm, symbols, Radial basis function, Algorithm, Mathematics
Abstract

In this study, we present a modified Fuzzy C-Means (MFCM) algorithm for nonlinear blind channel equalization. The proposed MFCM searches the optimal channel output states of a nonlinear channel, based on the Bayesian likelihood fitness function instead of a conventional Euclidean distance measure. In its searching procedure, all of the possible desired channel states are constructed by the combinations of estimated channel output states. The desired state with the maximum Bayesian fitness is selected and placed at the center of a Radial Basis Function (RBF) equalizer to reconstruct transmitted symbols. In the simulations, binary signals are generated at random with Gaussian noise. The performance of the proposed method is compared with that of a hybrid genetic algorithm (GA augment by simulated annealing (SA), GASA). It is shown that a relatively high accuracy and fast search speed has been achieved.

Published
2007
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43. Nucleotide-Dependent Conformational Changes in the σ54-Dependent Activator DctD

Author

B. Tracy Nixon, Ying Kai Wang, Sungdae Park, and Timothy R. Hoover

Subjects
Binding Sites, Activator (genetics), Protein Conformation, DNA Footprinting, DNA footprinting, DNA-Directed RNA Polymerases, Biology, Microbiology, AAA proteins, chemistry.chemical_compound, Protein structure, Adenosine Triphosphate, chemistry, Biochemistry, Bacterial Proteins, ATP hydrolysis, Mutant protein, Fluorescence Resonance Energy Transfer, Gene Regulation, Binding site, Molecular Biology, Adenosine triphosphate, Sinorhizobium meliloti, Transcription Factors
Abstract

Activators of σ54-RNA polymerase holoenzyme couple ATP hydrolysis to formation of an open promoter complex. DctDΔ1-142, a truncated and constitutively active form of the σ54-dependent activator DctD fromSinorhizobium meliloti, displayed an altered DNase I footprint at its binding site located upstream of thedctApromoter in the presence of ATP. The altered footprint was not observed for a mutant protein with a substitution at or near the putative arginine finger, a conserved arginine residue thought to contact the nucleotide. These data suggest that structural changes in DctDΔ1-142during ATP hydrolysis can be detected by alterations in the DNase I footprint of the protein and may be communicated by interactions between bound nucleotide and the arginine finger. In addition, kinetic data for changes in fluorescence energy transfer upon binding of 2′(3′)-O-(N-methylanthraniloyl)-ATP (Mant-ATP) to DctDΔ1-142and DctD suggested that these proteins undergo multiple conformational changes following ATP binding.

Published
2003

45. MFCM for Nonlinear Blind Channel Equalization.

Author

Melin, Patricia, Castillo, Oscar, Ramírez, Eduardo Gómez, Kacprzyk, Janusz, Pedrycz, Witold, Soowhan Han, and Sungdae Park

Abstract

In this study, we present a modified Fuzzy C-Means (MFCM) algorithm for nonlinear blind channel equalization. The proposed MFCM searches the optimal channel output states of a nonlinear channel, based on the Bayesian likelihood fitness function instead of a conventional Euclidean distance measure. In its searching procedure, all of the possible desired channel states are constructed by the combinations of estimated channel output states. The desired state with the maximum Bayesian fitness is selected and placed at the center of a Radial Basis Function (RBF) equalizer to reconstruct transmitted symbols. In the simulations, binary signals are generated at random with Gaussian noise. The performance of the proposed method is compared with that of a hybrid genetic algorithm (GA augment by simulated annealing (SA), GASA). It is shown that a relatively high accuracy and fast search speed has been achieved. [ABSTRACT FROM AUTHOR]

Published
2007
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47. Nucleotide-Dependent Conformational Changes in the σ[sup 54]-Dependent Activator DctD.

Author

Ying-Kai Wang, Orietta, Sungdae Park, Nixon, B. Tracy, and Hoover, Timothy R.

Subjects
*RNA polymerases, *PROMOTERS (Genetics), *RHIZOBIUM meliloti, *MICROBIAL enzymes
Abstract

Activators of σ[sup 54]-RNA polymerase holoenzyme couple ATP hydrolysis to formation of an open promoter complex. DctD[sub Δ1-142], a truncated and constitutively active form of the σ[sup 54]-dependent activator DctD from Sinorhizobium meliloti, displayed an altered DNase I footprint at its binding site located upstream of the dctA promoter in the presence of ATP. The altered footprint was not observed for a mutant protein with a substitution at or near the putative arginine finger, a conserved arginine residue thought to contact the nucleotide. These data suggest that structural changes in DctD[sub Δ1-142] during ATP hydrolysis can be detected by alterations in the DNase I footprint of the protein and may be communicated by interactions between bound nucleotide and the arginine finger. In addition, kinetic data for changes in fluorescence energy transfer upon binding of 2'(3')-O-(N-methylanthraniloyl)-ATP (Mant-ATP) to DctD[sub Δ1-142] and DctD suggested that these proteins undergo multiple conformational changes following ATP binding. [ABSTRACT FROM AUTHOR]

Published
2003
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48. Biochemical Evidence for Multiple Dimeric States of the Sinorhizobium meliloti DctD Receiver Domain.

Author

Sungdae Park, Hong Zhang, Jones, A. Daniel, and Nixon, B. Tracy

Subjects
*RHIZOBIUM meliloti, *DIMERS, *PHOSPHORYLATION
Abstract

X-ray crystal structures suggest very different dimeric states for the inactive and active forms of the two-component receiver domain of Sinorhizobium meliloti DctD, a σ[sub 54]-dependent AAA+ ATPase. Moreover, the receiver domain in crystals grown from unphosphorylated protein is refractory to phosphorylation whereas solution protein is fully phosphorylatable, and equilibrium analytical ultracentrifugation data are consistent with solution dimers for both phosphorylated and unphosphorylated forms of the protein. Here we report biochemical data consistent with the presence of multiple dimeric conformations in the inactive and active states, and evidence for significant change in the dimeric state upon activation by phosphorylation or binding of Mg[sup 2+] and BeF[sup 3][sup -]. [ABSTRACT FROM AUTHOR]

Published
2002
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49. RKIP inhibits NF-κB in cancer cells by regulating upstream signaling components of the IκB kinase complex

Author

Huihui Tang, Kam C. Yeung, Sungdae Park, Gang Ren, Shao Cong Sun, Eric Tsung, and Robert J. Trumbly

Subjects
Scaffold protein, Immunoprecipitation, Immunoblotting, Interleukin-1beta, Biophysics, Gene Expression, Phosphatidylethanolamine Binding Protein, IκB kinase, Biology, Biochemistry, Article, NF-κB, Cell Line, chemistry.chemical_compound, RKIP, NF-KappaB Inhibitor alpha, Structural Biology, RNA interference, Cell Line, Tumor, Neoplasms, Chlorocebus aethiops, Genetics, Animals, Humans, Phosphorylation, Molecular Biology, TNF Receptor-Associated Factor 6, Reverse Transcriptase Polymerase Chain Reaction, Kinase, NF-kappa B, Ubiquitination, Cell Biology, MAP Kinase Kinase Kinases, I-kappa B Kinase, Cell biology, Interleukin-1 Receptor-Associated Kinases, chemistry, COS Cells, I-kappa B Proteins, RNA Interference, Negative regulatory loop, Signal transduction, Raf-MEK-ERK, Protein Binding, Signal Transduction
Abstract

RKIP was first identified as an inhibitor of the Raf-MEK-ERK signaling pathway. RKIP was also found to play an important role in the NF-κB pathway. Genetic and biochemical studies demonstrated that RKIP functioned as a scaffold protein facilitating the phosphorylation of IκB by upstream kinases. However, contrary to what one would expect of a scaffold protein, our results show that RKIP has an overall inhibitory effect on the NF-κB transcriptional activities. Since NF-κB target gene expression is subject to negative regulation involving the optimal induction of negative regulators, our data support a hypothesis that RKIP inhibits NF-κB activity via the auto-regulatory feedback loop by rapidly inducing the expression and synthesis of inhibitors of NF-κB activation.Structured summaryMINT-7386121: TRAF6 (uniprotkb:Q9Y4K3) physically interacts (MI:0915) with RKIP (uniprotkb:P30086) by anti bait co-immunoprecipitation (MI:0006)

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50. Regulation of RKIP binding to the N-region of the Raf-1 kinase

Author

Zhijun Luo, Sharon M. Kelly, Sandy Beach, Sungdae Park, Oliver Rath, Walter Kolch, Kam C. Yeung, and Xiaoqin Xiang

Subjects
Biophysics, Peptide, Phosphatidylethanolamine Binding Protein, Biology, Biochemistry, Article, 03 medical and health sciences, Enzyme activator, 0302 clinical medicine, Structural Biology, Surface plasmon resonance, Chlorocebus aethiops, Genetics, Animals, Humans, Phosphorylation, Molecular Biology, Kinetic binding analysis, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, COS cells, MAP kinase kinase kinase, Raf kinase inhibitory protein, Cell Biology, MAP Kinase Kinase Kinases, Raf-1, Cell biology, Protein Structure, Tertiary, Enzyme Activation, Proto-Oncogene Proteins c-raf, chemistry, 030220 oncology & carcinogenesis, COS Cells, Mitogens, Protein Processing, Post-Translational, Binding domain
Abstract

The Raf kinase inhibitory protein (RKIP) binds to Raf-1 interfering with binding of the MEK substrate and potentially also Raf-1 activation. In response to mitogen stimulation RKIP dissociates from Raf-1 and later re-associates. Here, using a combination of mutational approaches, biochemical studies, peptide arrays and plasmon surface resonance (BIAcore), we fine map and characterize a minimal 24 amino acid long RKIP binding domain in the Raf-1 N-region, which consists of constitutive elements at both flanks and a center element that is regulated by phosphorylation and enhances the re-binding of RKIP to Raf-1 in the later phase of mitogen stimulation.

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