Margo S. Holland scite author profile

Strains of Escherichia coli from 101 healthy and 114 diarrheic calves were screened by PCR for the eae (intimin) gene and Shiga toxin genes (stx). Each eae+ and eae/stx+ strain was examined for antimicrobial susceptibility, enterohemolysin activity, and the somatic O antigen was determined. An immunoassay was used to detect Shiga toxin antigens for the eae/stx+ E. coli. Significantly more (p = 0.005) of the healthy calves carried eae+ and eae/stx+ E. coli in their feces when compared to strains from diarrheic calves. Moreover, Shiga toxin antigens were detected significantly more (p = 0.001) often among the eae/stx+ strains from healthy calves when compared to eae/stx+ strains from diarrheic calves. However, significantly more (p = 0.001) of the eae+ and eae/stx+ strains from diarrheic calves were resistant to at least one of the antimicrobials tested, and the strains from diarrheic calves had a significantly (p = 0.05) higher rate of antimicrobial resistance to at least two different antimicrobial classes. No significant difference (p> or =0.05) was detected among the eae+ and eae/stx+ strains from healthy and diarrheic calves for enterohemolysin production. Serogroups O-negative, O5, O26, and O111 were predominate among both healthy and diarrheic calves.

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Isolation and differentiation of bovine mammary gland progenitor cell populations

Holland¹,

Tai²,

Trosko³

et al. 2003

ajvr

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Subpopulations of bovine mammary gland cells with stem cell characteristics were identified. Phenotypic differences are observed among type I bovine mammary gland cells with stem cell characteristics. Gap junctional intercellular communication may be necessary for the differentiation of stem cells. Characterization of bovine mammary gland stem cells and their progeny may provide a new tool with which to study mammary gland health.

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Latent Turkey Herpesvirus Infection in Lymphoid, Nervous, and Feather Tissues of Chickens

Holland

Mackenzie²,

Bull

et al. 1998

Avian Diseases

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In earlier studies, we found that a late gene product, glycoprotein B (gB) was highly expressed in lymphoid tissues of chickens inoculated with turkey herpesvirus (HVT). The objectives of the present study were twofold. First, we wanted to expand on our previous research and determine if gB expression declines or disappears during later time periods of HVT infection. Second, we wanted to correlate gB expression with presence of HVT, i.e. if gB expression is absent, can HVT still be detected? Fifteen 1-day-old chicks were inoculated by intraperitoneal inoculation with 2000 plaque forming units of strain FC126 HVT. Thymus, spleen, bursa, brachial plexus, sciatic plexus, and feather tips were harvested at 21, 28, 35, 70, and 105 days postinoculation (PI). Brachial plexus and sciatic plexus were examined at 21, 28, and 35 days PI, and feather tips were examined at 21 and 28 days PI. An indirect immunofluorescence assay was used to detect HVT gB expression, and an in situ hybridization assay was used to detect HVT. At 21 days PI, gB expression was present in the thymus, spleen, and bursa. At 28 and 35 days PI, gB expression was detected in the thymus and spleen. At 70 days PI, gB expression was detected only in the spleen, and at 105 days PI, gB expression was not detected in any of the lymphoid tissue (thymus, spleen, or bursa). gB expression was not detected in the brachial plexus, sciatic plexus, or feather tips at any of the five time points. The bursa contained HVT only at 21 and 28 days PI. However, HVT was demonstrated in all other tissues from 21 to 105 days PI. Progression from a productive HVT infection to a latent HVT infection results in the loss of gB expression. Throughout this progression, a region of the HVT genome can be detected by appropriate methods.

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The Cellular Perspective on Mammary Gland Development: Stem/Progenitor Cells and Beyond

Holland

2005

Journal of Dairy Science

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Study of the mammary gland at the stem cell level is necessary for understanding mammary gland development. Knowledge of mammary gland development and growth is the first step toward formulating strategies to improve milk production. The success of these strategies requires an understanding of the dynamics of adult stem cells and their progeny in the development of the bovine mammary gland. The stem cell lineage pathway begins with adult stem cells and ends with the production of terminally differentiated cells. The progression of adult stem cells along the mammary gland stem cell lineage pathway requires the coordination of many events. One important event in this process is cell differentiation. This differentiation process evolves with a gradient appearance of cell organelles progressing from stem cells to terminally differentiated cells. To dissect differentiation, mechanisms that regulate stem cells to differentiate toward a particular cell fate must be identified. Ultrastructural characteristics assist in distinguishing cells in various stages of differentiation in the mammary gland cell lineage pathway. Cells in the lineage pathway can become either epithelial cells or myoepithelial cells. Epithelial cells function in the production and secretion of milk, whereas myoepithelial cells assist epithelial cells in milk secretion. This review focuses on current concepts regarding adult stem cells and the recent progress on bovine mammary gland stem/progenitor cell development and differentiation. Multistep strategies that incorporate manipulation of the mechanisms influencing lineage choices in the mammary gland will produce beneficial effects on mammary gland development and milk production.

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Companion Animals as Reservoirs ofeaeA⁺Escherichia Coli

2000

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Margo S. Holland

Characterization of eae+ Escherichia coli isolated from healthy and diarrheic calves

Isolation and differentiation of bovine mammary gland progenitor cell populations

Latent Turkey Herpesvirus Infection in Lymphoid, Nervous, and Feather Tissues of Chickens

The Cellular Perspective on Mammary Gland Development: Stem/Progenitor Cells and Beyond

Companion Animals as Reservoirs ofeaeA⁺Escherichia Coli

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Margo S. Holland

Characterization of eae+ Escherichia coli isolated from healthy and diarrheic calves

Isolation and differentiation of bovine mammary gland progenitor cell populations

Latent Turkey Herpesvirus Infection in Lymphoid, Nervous, and Feather Tissues of Chickens

The Cellular Perspective on Mammary Gland Development: Stem/Progenitor Cells and Beyond

Companion Animals as Reservoirs ofeaeA+Escherichia Coli

Contact Info

Product

Resources

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Companion Animals as Reservoirs ofeaeA⁺Escherichia Coli