Reverse Phase High Performance Liquid Chromatography of Escherichia coli Ribosomal Proteins
Reverse Phase - Agilent · How proteins separate on reverse-phase HPLC August 29, 2013 Agilent...
Transcript of Reverse Phase - Agilent · How proteins separate on reverse-phase HPLC August 29, 2013 Agilent...
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Reverse Phase
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How proteins separate on reverse-phase HPLC
August 29, 2013 Agilent Confidential
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• RP chromatography separates proteins through the interaction of the “hydrophobic foot” of the protein with a non-polar surface of the particle
• RP columns are nearly always based on silica particles – Mechanical stability, easy to make, surface can be modified, excellent
peak shape & efficiency)
• Solvent – Organic modifier: Acetonitrile, isopropanol, methanol – Ion pair additive: Trifluoroacetic acid (TFA), Formic Acid, or Acetic.
• Gradient separation
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Analysis & characterization of protein drugs by RP-HPLC • RP HPLC plays a very important role in the analysis &
characterization of protein therapeutic drugs – Verification of fidelity of primary sequence
• Using peptide map with comparison to a reference standard – Determination of deamidation & oxidation
• By means of peptide map comparison of native & stressed protein • Using an intact protein
– Determination & confirmation of disulfide bonds • By peptide mapping comparing native & reduced protein
– Characterization of glycosylation • Peptide mapping can determine glycopeptide (in conjunction with MS)
August 29, 2013 Agilent Confidential
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Choose The Initial Bonded Phase: C18 C8 C3
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Buy Them All and Try Them All…..
Not really feasible, right?
How do you narrow it down?
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Molecular Weight
• Larger molecular weights separate better with smaller ligands – Upper Mw of C18 = 70kDa
• Not much difference between C8, C3 & diphenyl – Upper Mw of C3/C8/DP = 180kDa
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C18 C8 C3 Diphenyl
Increasing molecular weight
Decreasing ligand size
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Pore Size
Generally speaking, the “go to pore” size for most protein applications using RP is 300 A.
Smaller pore sizes are available for smaller proteins and peptides
Larger pore sizes are available for larger proteins and synthetic molecules
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About Particle Size
Smaller particle sizes will increase resolution power
Coupled with smaller column lengths, decrease time and increase throughput
Agilent offers many options down to 1.8 um for RP
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As Column Volume Decreases, Decrease Gradient Time (tg) to Keep Gradient Retention (k*) and Resolution Constant
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0 5 10 15 20 25 30 35 40 45 50
0 2 4 6 8 10 12 14 16 18 20 24 26 28 30
12.
16 22
0 1 2 4 5 6 8 9 1073
1 23 4 5 6 7
89 10
ZORBAX 300SB-C8 4.6 x 250 mm, 5 µm
Rapid Resolution 4.6 x 150 mm, 3.5 µm
Rapid Resolution 4.6 x 50 mm, 3.5 µm
40 min.
24 min.
9 min.
10-60% B in 10 min.
10-60% B in 30 min.
10-60% B in 50 min.
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Initial Separation Conditions
Mobile Phase: A: 95% H2O/5% ACN, 01.% TFA
B: 5% H2O/95% ACN, 0.1% TFA
Gradient: 0-60% B in 60 min
Temp: 35- 40 C
Flow Rate: 1ml/min
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Optimize Organic Modifier
In order of increasing elutropic force and decreasing polarity:
Water
Methanol
Acetonitrile
N-Propanol
THF
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About Ion Pair Agents
Typically TFA is used
If LC/MS is used, can substitute Formic or Acetic acid
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Optimize Temperature
• Higher column temperature can dramatically improve resolution and recovery
• Check manufacturer specs for compatibility
• Agilent Zorbax Stablebond columns are rated to 80 C
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Effect of Column Temperature on Retention k and Selectivity α
Intro to RP LC Meth Dev_11 11 09_T Trainor
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40º C
65º C
10 0 5
Time in Minutes
A B
A B
1. Column temperature can be used to fine tune a separation by affecting both the retention k and selectivity α.
2. About a 1% increase in T leads to a 1 to 2% decrease in k.
3. Increase in T leads to decrease in Pressure due to decrease in mobile phase viscosity.
4. Increase in T also leads to decrease in peak widths.
5. Also, use of a thermostat column compartment improves retention time precision.
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Optimize Mobile Phase pH
• Start with acidic pH first
• If not ideal, move to mid or high pH, check manufacturers specs for limits
• Selectivity will change because acidic amino acids will become negatively charged and basics may lose their charge
• Ammonium hydroxide is an excellent mobile phase for high pH separations using LC/MS
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High pH Can be Used for Separating Hydrophobic or Other Low-Solubility Peptides
Comparison of Aß Peptide RP-HPLC Separations at Low and High pH Column: ZORBAX 300Extend C18 2.1 x 150 mm, 5 µm Flow Rate: 0.25 mL/min Sample: 5 µL sample (100 pmol each)
Abso
rban
ce (2
10 n
m)
TFA Conditions, 25°C A- 0.1% TFA in water B- 0.085% TFA in 80%AcN 33-45%B in 30 min.
TFA Conditions, 80°C A- 0.1% TFA in water B- 0.085% TFA in 80%AcN 29-41%B in 30 min.
Aβ(1-38) Aβ(1-40)
Aβ(1-42) Aβ(1-43)
Aβ(1-38) Aβ(1-40)
Aβ(1-43)
Aβ(1-42)
Aβ(1-42/3) Aβ(1-40)
Aβ(1-38)
NH4OH Conditions, 25°C A- 20 mM NH4OH in water B- 20 mM NH4OH in 80%AcN 26-38%B in 30 min.
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Adjust Gradient Slope to Optimize Resolution
Accomplished by changing:
gradient time
% change in organic modifier over time
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Gradient Slope
Intro to RP LC Meth Dev_11 11 09_T Trainor
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0 1 0 2 0 3 0 4 0 min.
100% B
100% B 0% B
0% B
tG = 40
tG = 20
100% B
100% B 0% B
0% B
tG = 10
tG = 5
0 1 0
Steep
Shallow
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Agilent RP Column Choices for Biomolecules
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Zorbax Silica Zorbax Stablebond 300
300 A pore size
available in C-3, C-8, C-18, and CN
non-endcapped
particle sizes: 3.5, 5, and 7
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O
R RSi
OH
Si
O
SiR R R
OOH
R
R1 R1 R1
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NEW! Zorbax 300 SB RRHD for Proteins and Peptides!
•Stablebond 300 silica
•C-18, C-8, C-3, HILIC and unique diphenyl bonded phase
•1.8 um particle size
•1200 Bar pressure limit for uHPLC
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Diphenyl Selectivity
• Diphenyl provides alternate selectivity to C3 – In addition to difference in hydrophobicity
• C18, C8 and C3 work on a purely hydrophobic interaction
• DP has π-π interactions also
• Additional affinity for aromatic amino acids and double bonds – Orthogonality
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C3 vs Diphenyl
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• Reduced IgG1 • 0.1% TFA gradient, 74°C • Less hydrophobic DP column shows baseline resolution
c
c
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Poroshell 300
300 A pore size
Stablebond chemistry
available in C-3, C-8,C-18, and C-18 Extend
5 um particle size
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Comparison of Diffusion Distance Totally porous silica vs. superficially porous silica
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0.25 µm
5 µm Totally Porous Particle
2.5 µm Required diffusion distance for a macromolecule reduced 10 fold !
5 µm Superficially Porous Particle
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AdvanceBio Peptide Mapping Column A superficially porous column with a 2.7um particle and C18 functionality which enables separation of hydrophilic through hydrophobic peptides to give superior resolution across the gradient range to efficiently resolve peptide fragments.
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What are the compelling features? Peptide Mapping Resolving Power/Peak Capacity Enhance Resolution across a Wide Dynamic Range Fast Analysis Times Lower Pressure Drops than sub 2um Columns Quality Checked for Peptide Performance
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Peptide mapping
Peptide mapping is the single most important technique in analytical characterization of protein drugs. It is used to…
• Development (characterization)
– Confirm primary structure by comparison of a product to a reference protein (detect point mutations, mis-translations & confirm genetic stability)
– Identify location of disulfide bonds
– Characterize & analyze degradation processes such as deamidation & oxidation
– Isolate digest fragments for sequencing or further identification
– Identify sites of glycosylation
• Quality control
– Drug substance identity test
– Drug substance purity test
August 29, 2013 Agilent Confidential
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AdvanceBio Peptide Mapping Column
Primary Benefit – Reduce Peptide Mapping Time without Losing Resolution What is It? - A superficially porous column with a 2.7um particle and C18 functionality which enables separation of hydrophilic through hydrophobic peptides to give superior resolution across the gradient range to efficiently resolve peptide fragments. Major Features High Resolution of the Peptide Map Fast Analysis Times Lower Pressure Drops than sub 2um Columns Quality Checked for Peptide Performance
August 29, 2013 Agilent Confidential
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min 0 2.5 5 7.5 10 12.5 15 17.5 20
mAU
0
10
20
30
40
50
60
70
2.1 x 150mm AdvanceBio Peptide Mapping Column Mobile phase: A-water (0.1%TFA), B- ACN (0.08%TFA), 40 C, flow: 0.52mL/min
Hydrophilic peptide retention
Narrow Peaks w baseline resolution
Hydrophobic peptide retention
Reduced and fast analysis time
Critical and desired peptide mapping components to achieve fast, selective and highly efficient peptide separations across a wide dynamic range.
Peptide Mapping AdvanceBio Peptide Mapping Column Highlights
BSA tryptic digest
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PLRP-S
Polystyrene divinylbenzene bead
Available in 100, 300, 1000, and 4000A pore sizes
Particle sizes 3, 5, 8, 10, and higher
Various geometries from Nano, Capillary to preparative
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Match to System Capabilities
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Thank you!