Fanconi Anemia Research Community
In progress
Welcome to the Fanconi Anemia Research Community <wikionly>wiki</wikionly><nonwikionly>website.</nonwikionly>. We are researchers interested in understanding how the Fanconi anemia proteins contribute to the maintenance of genomic stability with the goal of developing better treatments for Fanconi patients. |
AnnouncementsTwentieth Annual Fanconi Anemia Scientific Symposium The Twentieth Annual Fanconi Anemia Research Fund Scientific Symposium will be held from 3pm, Saturday, October 4 to Noon, Tuesday, October 7, 2008 at the Hilton Hotel and Conference Center, Eugene, Oregon. More info |
Discussion Forum |
FA Research Labs
- add your lab link! Join OWW
- Lab Wiki Tutorial
- Hoatlin Lab, Oregon Health and Science University
Getting Started with wiki and OWW
Useful links for FA research
Pub Med FA literature
Fanconi Anemia Research Fund (FARF)
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Recent changes
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30 April 2024
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07:33 | BioMicroCenter:SingleCell 6 changes history +55 [Noelani Kamelamela (6×)] | |||
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07:33 (cur | prev) +49 Noelani Kamelamela talk contribs (→10x CHROMIUM X) | ||||
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06:51 | Cells and Nanoparticles in Flow - Namish Kokkula 2 changes history +8,630 [Nkokkula (2×)] | |||
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06:08 | (Upload log) [Nkokkula (4×)] | |||
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06:08 Nkokkula talk contribs uploaded File:Pulsatile blood sim.jpg (Numerically simulated formation of RBC rouleaux under pulsatile flow at 0.96s. The black and red particles represent aggregated and nonaggregated RBCs, respectively. The color gradient is the shear rate in the flow (1/s). (a)-(d) are RBC distributions at velocity amplitudes from 0.5 mm/s to 1.3 mm/s at a mean flow velocity of 4 mm/s. (e)-(h) are RBC distributions at the same velocity amplitudes at a mean flow velocity of 5 mm/s. Lee, C.-A.; Paeng, D.-G. Numerical Simulation of Spatiotemporal...) | ||||
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06:04 Nkokkula talk contribs uploaded File:Pulsatile blood sim.webp (Numerically simulated formation of RBC rouleaux under pulsatile flow at 0.96s. The black and red particles represent aggregated and nonaggregated RBCs, respectively. The color gradient is the shear rate in the flow (1/s). (a)-(d) are RBC distributions at velocity amplitudes from 0.5 mm/s to 1.3 mm/s at a mean flow velocity of 4 mm/s. (e)-(h) are RBC distributions at the same velocity amplitudes at a mean flow velocity of 5 mm/s. Lee, C.-A.; Paeng, D.-G. Numerical Simulation of Spatiotemporal...) | ||||
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05:54 Nkokkula talk contribs uploaded File:CFL in vitro.png (RBCs flow through a PDMS microfluidic channel and form an RBC-FL. The blue line tracks a single RBC across frames. The image was created by overlaying frames of a captured video. Pinto, E.; Faustino, V.; Rodrigues, R. O.; Pinho, D.; Garcia, V.; Miranda, J. M.; Lima, R. A Rapid and Low-Cost Nonlithographic Method to Fabricate Biomedical Microdevices for Blood Flow Analysis. Micromachines 2015, 6 (1), 121–135. https://doi.org/10.3390/mi6010121. is licensed under CC BY 4.0) | ||||
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05:40 Nkokkula talk contribs uploaded File:Blood particle distribution.jpg (Representation of the distribution of WBCs, RBCs, and platelets in a blood vessel. The parabolic laminar velocity distribution is shown at the left end of the vessel. Wang, S.; Han, K.; Ma, S.; Qi, X.; Guo, L.; Li, X. Blood Cells as Supercarrier Systems for Advanced Drug Delivery. Med. Drug Discov. 2022, 13, 100119. https://doi.org/10.1016/j.medidd.2021.100119. is licensed under CC BY-NC-ND 4.04) |
05:52 | File:Blood particle distribution.jpg diffhist −1 Nkokkula talk contribs (→Summary) |
29 April 2024
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14:25 | Free-Boundary Microfluidics - Robert Keane 2 changes history −4 [Rkeane (2×)] | |||
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14:25 (cur | prev) −2 Rkeane talk contribs (→Electrohydrodynamics) | ||||
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14:25 | Droplet Microfluidics: Synthesis of Janus Particles - Teresa Wang 12 changes history +759 [Rkeane (12×)] | |||
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14:13 | Xu lab:Lab Members 4 changes history +97 [Peisheng Xu (4×)] | |||
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14:13 (cur | prev) +1 Peisheng Xu talk contribs (→Group Photo) | ||||
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14:10 | (Upload log) [Lacey Berry; Peisheng Xu (2×)] | |||
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14:10 Peisheng Xu talk contribs uploaded a new version of File:Xu Lab Spring 2024-1.jpg | ||||
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14:07 Peisheng Xu talk contribs uploaded File:Xu Lab Spring 2024-1.jpg | ||||
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11:24 Lacey Berry talk contribs uploaded File:HighRisk.pdf |
11:20 | CAMRI:Resources diffhist +491 Lacey Berry talk contribs |
11:15 | CAMRI:COVID diffhist −13,088 Lacey Berry talk contribs |
10:22 | Microfluidics for DNA Sequencing - Khiem Le diffhist +1 Khiemle talk contribs (→NGS Technologies) |
N 08:30 | UA Biophysics:Protocols:Calcein8 ESP diffhist +1,771 Elizabeth Suesca talk contribs (Created page with "'''Calceina: 800 mOsM, 50 mM, 50 ml, pH 7.4 ''' ==Materiales: == * Probeta 100 ml * 30 ml de NaOH (1M) * HCl (1M) * NaCl * 1.5564 g de calceina * 40 ml Buffer H: ** 5 ml de EDTA 0.2 mM (Para que quede a 0.01 mM en la solución final) ** HEPES 238.3 mg (para que quede a 10 mM en la solución final). ==Procedimiento: == # En la probeta medir 10 ml de NaOH 1M y colocar agitador # Disolver en el NaOH 1.5564 g de calceina (50 mM o 50 mOsM) # Agregar 200 mM de NaCl (...") |
07:57 | UA Biophysics:Protocols:Calcein ESP diffhist +1 Elizabeth Suesca talk contribs |
28 April 2024
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18:59 | CHEM-ENG590E:Wiki Textbook 2 changes history −1 [Nmhatre (2×)] | |||
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18:59 (cur | prev) −17 Nmhatre talk contribs (→Chapter 4 - Flow Control and Mixing) | ||||
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18:56 | Microfluidic Gradient Generators - Greg Schneider 4 changes history −132 [Nmhatre (4×)] | |||
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18:55 | Upload log Nmhatre talk contribs uploaded File:Nonlineargradientmodel.jpeg |
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18:39 | Nanoimprint Lithography (NIL) - Carter Paul 3 changes history +21 [CarterPaul (3×)] | |||
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18:38 (cur | prev) +8 CarterPaul talk contribs (→Ultraviolet (UV) NIL and Machining Mechanism) |
18:36 | Capillary Electrophoresis - Andrew Maloney, Tim Towner, Camryn Payne diffhist −5 Camrynpayne talk contribs (→Background) |
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