Attachments of biologically active molecules to solid supports have many practical applications such as affinity chromatography, cell separation, diagnostics and molecular biology products. A common protocol for ligand attachment is activation of an amine- functionalized surface with glutaraldehyde, creating ...
[20] Malik, S., and K‐H. Grzeschik. "Synpolydactyly: clinical and molecular advances." Clinical genetics 73.2 (2008): 113-120 [21] Sheth R, Marcon L, Bastida MF, Junco M, Quintana L, Dahn R, Kmita M, Sharpe J, Ros MA. Hox genes regulate digit patterning by controlling the wav...
[20] Malik, S., and K‐H. Grzeschik. "Synpolydactyly: clinical and molecular advances." Clinical genetics 73.2 (2008): 113-120 [21] Sheth R, Marcon L, Bastida MF, Junco M, Quintana L, Dahn R, Kmita M, Sharpe J, Ros MA. Hox genes regulate digit patterning by controlling the wav...
[20] Malik, S., and K‐H. Grzeschik. "Synpolydactyly: clinical and molecular advances." Clinical genetics 73.2 (2008): 113-120 [21] Sheth R, Marcon L, Bastida MF, Junco M, Quintana L, Dahn R, Kmita M, Sharpe J, Ros MA. Hox genes regulate digit patterning by controlling the wav...
Grzeschik. "Synpolydactyly: clinical and molecular advances." Clinical genetics 73.2 (2008): 113-120 [21] Sheth R, Marcon L, Bastida MF, Junco M, Quintana L, Dahn R, Kmita M, Sharpe J, Ros MA. Hox genes regulate digit patterning by controlling the wavelength of a Turing-type ...
Grzeschik. "Synpolydactyly: clinical and molecular advances." Clinical genetics 73.2 (2008): 113-120 [21] Sheth R, Marcon L, Bastida MF, Junco M, Quintana L, Dahn R, Kmita M, Sharpe J, Ros MA. Hox genes regulate digit patterning by controlling the wavelength of a Turing-type ...
Grzeschik. "Synpolydactyly: clinical and molecular advances." Clinical genetics 73.2 (2008): 113-120 [21] Sheth R, Marcon L, Bastida MF, Junco M, Quintana L, Dahn R, Kmita M, Sharpe J, Ros MA. Hox genes regulate digit patterning by controlling the wavelength of a Turing-type ...