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Leader of client delivery and internal strategy and planning teams for Ripple Effect…

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  • Ripple Effect

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Volunteer Experience

  • Montgomery County Community College Graphic

    IRB Member

    Montgomery County Community College

    - 3 years 1 month

    Education

  • Board Member and Vice President of Education

    PMI Montgomery County, MD Chapter

    - 1 year

    Education

    Influence the direction of the chapter, and ensure educational opportunities for all chapter members.

  • National Postdoctoral Association Graphic

    Vice Chair, Board of Directors

    National Postdoctoral Association

    - 2 years

    Education

    The National Postdoctoral Association is a professional association that provides a unique, national voice for postdoctoral scholars.

    In 2008, I led the NPA in monitoring and implementing the strategic and operating plans, in addition to overseeing the programmatic efforts of individuals and committees implementing goals and objectives of the plans. In 2009, I coordinated activities with the committees and officers of the membership.

  • Lector and Religious Education Instructor

    Stelizabethchurch rockville

    - Present 7 years 3 months

    Regular lector for Sunday readings, and instructor for 8th grade catechism and Confirmation preparation

Publications

  • Sex Differences in Application, Success, and Funding Rates for NIH Extramural Programs

    Academic Medicine

    Purpose: The authors provide an analysis of sex differences in National Institutes of Health (NIH) award programs to inform potential initiatives for promoting diversity in the research workforce.

    Method: In 2010, the authors retrieved data for NIH extramural grants in the electronic Research Administration Information for Management, Planning, and Coordination II database and used statistical analysis to determine any sex differences in securing NIH funding, as well as subsequent…

    Purpose: The authors provide an analysis of sex differences in National Institutes of Health (NIH) award programs to inform potential initiatives for promoting diversity in the research workforce.

    Method: In 2010, the authors retrieved data for NIH extramural grants in the electronic Research Administration Information for Management, Planning, and Coordination II database and used statistical analysis to determine any sex differences in securing NIH funding, as well as subsequent success of researchers who had already received independent NIH support.

    Results: Success and funding rates for men and women were not significantly different in most award programs. Furthermore, in programs where participation was lower for women than men, the disparity was primarily related to a lower percentage of women applicants compared with men, rather than decreased success rates or funding rates. However, for subsequent grants, both application and funding rates were generally higher for men than for women.

    Conclusions: Cross-sectional analysis showed that women and men were generally equally successful at all career stages, but longitudinal analysis showed that men with previous experience as NIH grantees had higher application and funding rates than women at similar career points. On average, although women received larger R01 awards than men, men had more R01 awards than women at all points in their careers. Therefore, while greater participation of women in NIH programs is under way, further action will be required to eradicate remaining sex differences.

    Other authors
    • Hong Jiang
    • Robin Wagner
    • Walter Schaffer
    • Vivian Pinn
    See publication
  • Sex differences in career development awardees' subsequent grant attainment

    Annals of Internal Medicine

    Comment on "Sex differences in attainment of independent funding by career development awardees."

    Other authors
    • Jiang Hong
    • Jennifer Sutton
    See publication
  • Moving toward paradigm-shifting research in health disparities through translational, transformational, and transdisciplinary approaches.

    American Journal of Public Health

    Translational, transdisciplinary, and transformational research stands to become a paradigm-shifting mantra for research in health disparities. A windfall of research discoveries using these 3 approaches has increased our understanding of the health disparities in racial, ethnic, and low socioeconomic status groups. These distinct but related research spheres possess unique environments, which, when integrated, can lead to innovation in health disparities science. In this article, we review…

    Translational, transdisciplinary, and transformational research stands to become a paradigm-shifting mantra for research in health disparities. A windfall of research discoveries using these 3 approaches has increased our understanding of the health disparities in racial, ethnic, and low socioeconomic status groups. These distinct but related research spheres possess unique environments, which, when integrated, can lead to innovation in health disparities science. In this article, we review these approaches and propose integrating them to advance health disparities research through a change in philosophical position and an increased emphasis on community engagement. We argue that a balanced combination of these research approaches is needed to inform evidence-based practice, social action, and effective policy change to improve health in disparity communities.

    Other authors
    • Irene Dankwa-Mullan
    • Kyu Rhee, David Stoff
    • Francisco Sy
    • Nathaniel Stinson
    • John Ruffin
    See publication
  • Genomics research: world survey of public funding.

    BMC Genomics

    Over the past two decades, genomics has evolved as a scientific research discipline. Genomics research was fueled initially by government and nonprofit funding sources, later augmented by private research and development (R&D) funding. Citizens and taxpayers of many countries have funded much of the research, and have expectations about access to the resulting information and knowledge. While access to knowledge gained from all publicly funded research is desired, access is especially important…

    Over the past two decades, genomics has evolved as a scientific research discipline. Genomics research was fueled initially by government and nonprofit funding sources, later augmented by private research and development (R&D) funding. Citizens and taxpayers of many countries have funded much of the research, and have expectations about access to the resulting information and knowledge. While access to knowledge gained from all publicly funded research is desired, access is especially important for fields that have broad social impact and stimulate public dialogue. Genomics is one such field, where public concerns are raised for reasons such as health care and insurance implications, as well as personal and ancestral identification. Thus, genomics has grown rapidly as a field, and attracts considerable interest.

    One way to study the growth of a field of research is to examine its funding. This study focuses on public funding of genomics research, identifying and collecting data from major government and nonprofit organizations around the world, and updating previous estimates of world genomics research funding, including information about geographical origins. We initially identified 89 publicly funded organizations; we requested information about each organization's funding of genomics research. Of these organizations, 48 responded and 34 reported genomics research expenditures. We estimate that we have accounted for most of the genomics research funding from government and nonprofit sources.

    Aggregate spending on genomics research from 34 sources averaged around $2.9 billion in 2003-2006. The US spent more than any other country on genomics research, corresponding to 35% of the overall worldwide public funding (compared to 49% US share of public health research funding for all purposes). When adjusted to genomics funding intensity, the US dropped below Ireland, the UK, and Canada, as measured both by genomics research expenditure per capita and per GDP.

    Other authors
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  • The epsilon subunit of DNA polymerase III Is involved in the nalidixic acid-induced SOS response in Escherichia coli.

    Journal of Bacteriology

    Quinolone antibacterial drugs such as nalidixic acid target DNA gyrase in Escherichia coli. These inhibitors bind to and stabilize a normally transient covalent protein-DNA intermediate in the gyrase reaction cycle, referred to as the cleavage complex. Stabilization of the cleavage complex is necessary but not sufficient for cell killing--cytotoxicity apparently results from the conversion of cleavage complexes into overt DNA breaks by an as-yet-unknown mechanism(s). Quinolone treatment induces…

    Quinolone antibacterial drugs such as nalidixic acid target DNA gyrase in Escherichia coli. These inhibitors bind to and stabilize a normally transient covalent protein-DNA intermediate in the gyrase reaction cycle, referred to as the cleavage complex. Stabilization of the cleavage complex is necessary but not sufficient for cell killing--cytotoxicity apparently results from the conversion of cleavage complexes into overt DNA breaks by an as-yet-unknown mechanism(s). Quinolone treatment induces the bacterial SOS response in a RecBC-dependent manner, arguing that cleavage complexes are somehow converted into double-stranded breaks. However, the only proteins known to be required for SOS induction by nalidixic acid are RecA and RecBC. In hopes of identifying additional proteins involved in the cytotoxic response to nalidixic acid, we screened for E. coli mutants specifically deficient in SOS induction upon nalidixic acid treatment by using a dinD::lacZ reporter construct. From a collection of SOS partially constitutive mutants with disruptions of 47 different genes, we found that dnaQ insertion mutants are specifically deficient in the SOS response to nalidixic acid. dnaQ encodes DNA polymerase III epsilon subunit, the proofreading subunit of the replicative polymerase. The deficient response to nalidixic acid was rescued by the presence of the wild-type dnaQ gene, confirming involvement of the epsilon subunit. To further characterize the SOS deficiency of dnaQ mutants, we analyzed the expression of several additional SOS genes in response to nalidixic acid using real-time PCR. A subset of SOS genes lost their response to nalidixic acid in the dnaQ mutant strain, while two tested SOS genes (recA and recN) continued to exhibit induction. These results argue that the replication complex plays a role in modulating the SOS response to nalidixic acid and that the response is more complex than a simple on/off switch.

    Other authors
    See publication
  • Formation and processing of stalled replication forks--utility of two-dimensional agarose gels.

    Methods in Enzymology

    Replication forks can be stalled by tightly bound proteins, DNA damage, nucleotide deprivation, or defects in the replication machinery. It is now appreciated that processing of stalled replication forks is critical for completion of DNA replication and maintenance of genome stability. In this chapter, we detail the use of two-dimensional (2D) agarose gels with Southern hybridization for the detection and analysis of blocked replication forks in vivo. This kind of 2D gel electrophoresis has…

    Replication forks can be stalled by tightly bound proteins, DNA damage, nucleotide deprivation, or defects in the replication machinery. It is now appreciated that processing of stalled replication forks is critical for completion of DNA replication and maintenance of genome stability. In this chapter, we detail the use of two-dimensional (2D) agarose gels with Southern hybridization for the detection and analysis of blocked replication forks in vivo. This kind of 2D gel electrophoresis has been used extensively for analysis of replication initiation mechanisms for many years, and more recently has become a valuable tool for analysis of fork stalling. Although the method can provide valuable information when forks are stalled in random locations (e.g., after UV damage or nucleotide deprivation), it is even more informative with site-specific fork blockage, for example, blocks caused by tightly bound replication terminator proteins or by drug-stabilized topoisomerase cleavage complexes.

    Other authors
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  • Genetic analysis of the requirements for SOS induction by nalidixic acid in Escherichia coli.

    Gene

    Nalidixic acid, the prototype antibacterial quinolone, induces the SOS response by a mechanism that requires the RecBCD nuclease/helicase. A key step inferred for this induction pathway is the conversion of a drug-induced gyrase cleavage complex into a DNA break that can be processed by RecBC. We tried to clarify the nature of this step by searching for additional gene products that are specifically necessary for SOS induction following nalidixic acid treatment. A transposon library of…

    Nalidixic acid, the prototype antibacterial quinolone, induces the SOS response by a mechanism that requires the RecBCD nuclease/helicase. A key step inferred for this induction pathway is the conversion of a drug-induced gyrase cleavage complex into a DNA break that can be processed by RecBC. We tried to clarify the nature of this step by searching for additional gene products that are specifically necessary for SOS induction following nalidixic acid treatment. A transposon library of approximately 19,000 insertion mutants yielded 18 mutants that were substantially reduced for SOS induction following nalidixic acid but not UV treatment, and which were also hypersensitive to nalidixic acid. All 18 mutants turned out to have insertions in recB or recC. As expected, recA insertion mutants were uncovered as being uninducible by either nalidixic acid or UV treatment. Insertions in 11 other genes were found to cause partial defects in SOS induction by one or both pathways, providing possible leads in understanding the detailed mechanisms of SOS induction. Overall, these results suggest that nalidixic acid-induced DNA breaks are generated either by RecBC itself, by redundant activities, and/or by an essential protein that could not be uncovered with transposon mutagenesis.

    Other authors
    See publication
  • Drosophila melanogaster topoisomerase IIIalpha preferentially relaxes a positively or negatively supercoiled bubble substrate and is essential during development.

    Journal of Biological Chemistry

    Eukaryotic type IA topoisomerases are important for the normal function of the cell, and in some cases essential for the organism, although their role in DNA metabolism remains to be elucidated. In this study, we cloned Drosophila melanogaster topoisomerase (topo) IIIalpha from an embryonic cDNA library and expressed and purified the protein to >95% homogeneity. This enzyme partially relaxes a hypernegatively supercoiled plasmid substrate consistent with other purified topo IIIs. A novel…

    Eukaryotic type IA topoisomerases are important for the normal function of the cell, and in some cases essential for the organism, although their role in DNA metabolism remains to be elucidated. In this study, we cloned Drosophila melanogaster topoisomerase (topo) IIIalpha from an embryonic cDNA library and expressed and purified the protein to >95% homogeneity. This enzyme partially relaxes a hypernegatively supercoiled plasmid substrate consistent with other purified topo IIIs. A novel, covalently closed bubble substrate was prepared for this study, which topo IIIalpha fully relaxed, regardless of the handedness of the supercoils. Experiments with the bubble substrate demonstrate that topo IIIalpha has much different reaction preferences from those obtained by plasmid substrate-based assays. This is presumably due to the fact that solution conditions can affect the structure of plasmid based substrates and therefore their suitability as a substrate. A mutant allele of the Top3alpha gene, Top3alpha191, was isolated through imprecise excision mutagenesis of an existing P-element inserted in the first intron of the gene. Top3alpha191 is recessive lethal, with most of the homozygous individuals surviving to pupation but never emerging to adulthood. Whereas this mutation can be rescued by a Top3alpha transgene, ubiquitous overexpression of D. melanogaster topo IIIbeta cannot rescue this allele.

    Other authors
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  • Arabidopsis genes essential for seedling viability: isolation of insertional mutants and molecular cloning.

    Genetics

    Budziszewski GJ, Lewis SP, Glover LW, Reineke J, Jones G, Ziemnik LS, Lonowski J, Nyfeler B, Aux G, Zhou Q, McElver J, Patton DA, Martienssen R, Grossniklaus U, Ma H, Law M, Levin JZ.

    Other authors
    See publication

Languages

  • Spanish

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