Mary E. White scite author profile

Although methods of phylogenetic estimation are used routinely in comparative biology, direct tests of these methods are hampered by the lack of known phylogenies. Here a system based on serial propagation of bacteriophage T7 in the presence of a mutagen was used to create the first completely known phylogeny. Restriction-site maps of the terminal lineages were used to infer the evolutionary history of the experimental lines for comparison to the known history and actual ancestors. The five methods used to reconstruct branching pattern all predicted the correct topology but varied in their predictions of branch lengths; one method also predicts ancestral restriction maps and was found to be greater than 98 percent accurate.

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Evolution of predetermined germ cells in vertebrate embryos: implications for macroevolution

Johnson

Drum

Bachvarova

et al. 2003

Evolution and Development

113

111

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The germ line is established in animal embryos with the formation of primordial germ cells (PGCs), which give rise to gametes. Therefore, the need to form PGCs can act as a developmental constraint by inhibiting the evolution of embryonic patterning mechanisms that compromise their development. Conversely, events that stabilize the PGCs may liberate these constraints. Two modes of germ cell determination exist in animal embryos: (a) either PGCs are predetermined by the inheritance of germ cell determinants (germ plasm) or (b) PGCs are formed by inducing signals secreted by embryonic tissues (i.e., regulative determination). Surprisingly, among the major extant amphibian lineages, one mechanism is found in urodeles and the other in anurans. In anuran amphibians PGCs are predetermined by germ plasm; in urodele amphibians PGCs are formed by inducing signals. To determine which mechanism is ancestral to the tetrapod lineage and to understand the pattern of inheritance in higher vertebrates, we used a phylogenetic approach to analyze basic morphological processes in both groups and correlated these with mechanisms of germ cell determination. Our results indicate that regulative germ cell determination is a property of embryos retaining ancestral embryological processes, whereas predetermined germ cells are found in embryos with derived morphological traits. These correlations suggest that regulative germ cell formation is an important developmental constraint in vertebrate embryos, acting before the highly conserved pharyngula stage. Moreover, our analysis suggests that germ plasm has evolved independently in several lineages of vertebrate embryos.

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In Vivo Analysis of Growth Hormone Receptor Signaling Domains and Their Associated Transcripts

Rowland

Lichanska

Kerr

et al. 2005

Molecular and Cellular Biology

144

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The growth hormone receptor (GHR) is a critical regulator of postnatal growth and metabolism. However, the GHR signaling domains and pathways that regulate these processes in vivo are not defined. We report the first knock-in mouse models with deletions of specific domains of the receptor that are required for its in vivo actions. Mice expressing truncations at residue m569 (plus Y539/545-F) and at residue m391 displayed a progressive impairment of postnatal growth with receptor truncation. Moreover, after 4 months of age, marked male obesity was observed in both mutant 569 and mutant 391 and was associated with hyperglycemia. Both mutants activated hepatic JAK2 and ERK2, whereas STAT5 phosphorylation was substantially decreased for mutant 569 and absent from mutant 391, correlating with loss of IGF-1 expression and reduction in growth. Microarray analysis of these and GHR؊/؊ mice demonstrated that particular signaling domains are responsible for the regulation of different target genes and revealed novel actions of growth hormone. These mice represent the first step in delineating the domains of the GHR regulating body growth and composition and the transcripts associated with these domains.Over the last decade, extensive in vitro studies have identified signaling pathways triggered by growth hormone receptor (GHR) activation and the sequence motifs within the conserved cytoplasmic domain of the receptor that are required to initiate these pathways. These studies have established the critical signaling role of JAK2 tyrosine kinase, which is recruited to the trimeric GHR2:GH complex at the box 1/2 motif (9). Hormone binding initiates JAK2 transphosphorylation and activation, resulting in phosphorylation of critical tyrosines within the cytoplasmic domain of the GHR, as well as other direct JAK2 substrates such as IRS-1 and -2. The distal cytoplasmic phosphotyrosines of GHR have been shown to recruit signal transducer and activator of transcription 5 (STAT5) and other proteins through SH2-domain interactions, whereas the proximal JAK2 activation domain is responsible for ERK1/2 and phosphatidylinositol 3-kinase (PI 3-kinase) activation (30), although it has been claimed that residues distal to m390 are required for ERK1/2 activation (residue 390, mouse sequence numbers given throughout) (38). There is some dispute regarding the distal tyrosine residues used to recruit STAT5 for activation, notably in relation to tyrosine m498 (8, 33); moreover, it has been claimed that tyrosines m341 and m346, proximal to boxes 1 and 2, may also generate active STAT5 (31).In vitro studies have identified other signaling elements within the distal region of the GHR cytoplasmic domain, for example, a JAK2-independent calcium signaling element between residues m465 and m517 (30). SHP2 phosphatase can have a dual role when bound to the cytoplasmic domain of the GHR. It binds primarily to m606 to attenuate JAK2-STAT5 signaling but can also serve as an adaptor protein (30). GHdriven activation of STAT5 can also be attenuated by suppres...

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In Vivo Targeting of the Growth Hormone Receptor (GHR) Box1 Sequence Demonstrates that the GHR Does Not Signal Exclusively through JAK2

Barclay¹,

Kerr²,

Arthur³

et al. 2010

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GH is generally believed to signal exclusively through Janus tyrosine kinases (JAK), particularly JAK2, leading to activation of signal transducers and activators of transcription (STAT), ERK and phosphatidylinositol 3-kinase pathways, resulting in transcriptional regulation of target genes. Here we report the creation of targeted knock-in mice wherein the Box1 motif required for JAK2 activation by the GH receptor (GHR) has been disabled by four Pro/Ala mutations. These mice are unable to activate hepatic JAK2, STAT3, STAT5, or Akt in response to GH injection but can activate Src and ERK1/2. Their phenotype is identical to that of the GHR(-/-) mouse, emphasizing the key role of JAK2 in postnatal growth and the minimization of obesity in older males. In particular, they show dysregulation of the IGF-I/IGF-binding protein axis at transcript and protein levels and decreased bone length. Because no gross phenotypic differences were evident between GHR(-/-) and Box1 mutants, we undertook transcript profiling in liver from 4-month-old males. We compared their transcript profiles with our 391-GHR truncated mice, which activate JAK2, ERK1/2, and STAT3 in response to GH but not STAT5a/b. This has allowed us for the first time to identify in vivo Src/ERK-regulated transcripts, JAK2-regulated transcripts, and those regulated by the distal part of the GHR, particularly by STAT5.

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Emerging roles of and therapeutic strategies targeting BRD4 in cancer

White

Fenger

Carson

2019

Cellular Immunology

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The Bromodomain and Extra-terminal (BET) family of proteins were first recognized as important epigenetic regulators in inflammatory processes; however, there is increasing evidence to support the notion that BET proteins also play a critical role in ‘reading’ chromatin and recruiting chromatin-regulating enzymes to control gene expression in a number of pathologic processes, including cancer. To this end, the mechanisms by which BET proteins regulate chromatin remodeling and promote tumor-associated inflammation have been heavily studied over the past decade. This article to review the biology of BET protein dysfunction in promoting tumor-associated inflammation and cancer progression and the application of small molecule inhibitors that target specific BET proteins, alone or in combination with immunomodulatory agents as a novel therapeutic strategy for cancer patients.

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Mary E. White

Experimental Phylogenetics: Generation of a Known Phylogeny

Evolution of predetermined germ cells in vertebrate embryos: implications for macroevolution

In Vivo Analysis of Growth Hormone Receptor Signaling Domains and Their Associated Transcripts

In Vivo Targeting of the Growth Hormone Receptor (GHR) Box1 Sequence Demonstrates that the GHR Does Not Signal Exclusively through JAK2

Emerging roles of and therapeutic strategies targeting BRD4 in cancer

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