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Cell biology / Bystander effect / Microbeam / RARAF / Bystander / Carcinogenesis / Apoptosis / P21 / Ionizing radiation / Radiobiology / Biology / Medicine


Experimental Hematology[removed]–68 Quantifying a bystander response following microbeam irradiation using single-cell RT-PCR analyses Brian Ponnaiya, Gloria Jenkins-Baker, Gerhard Randers-Pherson, and Charles R.
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Document Date: 2014-11-19 12:51:10

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City

Walkersville / Valencia / /

Company

Qiagen / FMC / Kodak / Elsevier Inc. / /

Country

United States / Columbia / /

Currency

pence / USD / /

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Event

FDA Phase / /

Facility

Radiological Research Facility / Hall EJ / Columbia University / Columbia University Radiological Research Accelerator Facility / /

IndustryTerm

fresh media / energy depositions / 1D analysis software / media movement / microbeam irradiation protocol / gap junction communications / mL media / done using Kodak 1D analysis software / /

MedicalCondition

tumor / urothelial carcinoma / Cancer / tumors / tumors bearing herpes / strain / Herpes / J Cancer / experimental brain tumors / /

MedicalTreatment

radiation / /

Organization

National Institute of Health / Research Center / Center for Radiological Research / Department of Health and Human Services P41 / International Society for Experimental Hematology / Charles R. Geard Center for Radiological Research / Columbia University / New York / /

Person

Gloria Jenkins-Baker / Hoechst / Brian Ponnaiya / Gerhard Randers-Pherson / /

Position

CTO / Chiarugi VP / Israel MA / producer / /

Product

lindane / CDKN1a / /

ProvinceOrState

New York / /

RadioStation

Malcolmson AM / Lyng FM / /

Technology

alpha / radiation / gene expression / microbeam irradiation protocol / RT-PCR protocol / apoptosis / /

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