SlideShare une entreprise Scribd logo

Effects of Additives on Reversibility of Thermal Unfolding

KBI Biopharma
KBI Biopharma

poster, WCBP 2000

Santé & Médecine
1  sur  12
Télécharger pour lire hors ligne
Effects of Additives on Reversibility of Thermal Unfolding Yoshiko Kita, John S. Philo and Tsutomu Arakawa Alliance Protein Laboratories, Thousand Oaks, CA; 805-388-1074 fax 805-388-7252, http://www.ap-lab.com Abstract Irreversible reactions following unfolding cause loss of proteins during purification, handling, and storage. Proteins unfold at high temperatures, but when that unfolding is reversible they can refold into the native structure. When unfolding is not reversible, increasing the reversibility can minimize protein loss and may enhance long-term stability. 1 We have studied the effects of various additives on the reversibility of thermal unfolding using native gels and sedimentation velocity to characterize the products of unfolding. Two basic proteins were examined in this study, ribonuclease and a monoclonal antibody, IGG1. When ribonuclease was heated to 75 ºC and then cooled to room temperature it generated new low-mobility bands on native gels, corresponding to aggregates. The proportions of monomer and aggregates were unchanged upon addition of various detergents, indicating that detergents do not inhibit heat-induced aggregation. Sucrose also had no effect, and glycine was only marginally effective. In contrast, ammonium sulfate and sodium chloride resulted a marked increase in monomer content. Similar studies of IGG1 again showed substantial loss of native monomer and formation of aggregates after heating to 75 ºC, but a totally opposite pattern of stabilization by additives. In this case sucrose and glycine were effective protectants, while salts promote aggregation. Among a number of buffers tested histidine and glycine buffers showed significant stabilization. These studies show that it is possible to increase the reversibility of thermal unfolding by altering solvent conditions, but we are unable to predict which additives will be protective. Since some unfolding always occurs spontaneously even at low temperatures, it is possible that the same additives can enhance storage stability by increasing the reversibility of the unfolding reaction. Purpose An accelerated stability study was carried out to screen additives for their ability to enhance the stability of proteins against irreversible aggregation due to thermal unfolding. Methods Proteins were subjected to high temperature and analyzed by native gel electrophoresis. Since the proteins used here (ribonuclease and IGG1) have basic isoelectric points, a His/Mes buffer system was used. CD thermal scans were also used to examine the effects of additives on melting temperature and reversibility of thermal unfolding of the proteins. 1 Narhi, L.O., Philo, J.S., Sun, B., Chang, B.S., and Arakawa, T. (1999). Reversibility of heat-induced denaturation of the recombinant human megakaryocyte growth and development factor. Pharm. Res. 16, 799-807.
Results and Discussion on Ribonuclease CD thermal scans of ribonuclease in 10 mM phosphate, pH 6.4 show that the melting temperature of ribonuclease is relatively constant in the presence of the additives tested, except for ammonium sulfate (see Table 1). In general, these additives are known to exert their effects at higher concentrations. However, the reversibility of thermal unfolding is highly variable. Ammonium sulfate at 0.4 M gives the highest reversibility, which may be in part due to the high melting temperature observed with this salt. NaCl and glycine at 0.4 M increase the reversibility somewhat, while their effects on melting temperature are insignificant. To further examine irreversible effects after denaturation, ribonuclease was heated at 75 !C and then analyzed by native gel electrophoresis. As can be seen in all 4 gels shown in Figures 1-4, the control sample showed formation of a new band, corresponding to soluble aggregates. (Note that there is no visible precipitation or turbidity in either these experiments or the CD experiments.) NaCl and ammonium sulfate at 0.4 M conferred great protection, since there is no apparent formation of the new band (Fig. 1). NP40 is ineffective below 1% (Fig.2), but there is a significant change in aggregation at 2%. Urea at 0.4 M enhances aggregation, while 0.2 M sucrose is not protective (Fig.3). Glycine at 0.4 M decreased aggregation significantly (Figs. 3 and 4).
Figure 1. RNase in 10 mM phosphate buffer at pH6.4 plus various additives. Ribonuclease was heated at 75 !C and analyzed by native gel electrophoresis using a His/Mes buffer system. The control sample showed formation of a new band, corresponding to soluble aggregates. (Note that there is no visible precipitation.) NaCl and ammonium sulfate at 0.4 M conferred great protection, since there is no apparent formation of the new band. Native gel at pH 6.1. RNasecontrol RNasewith0.4MNaCl RNasewith0.4MAmmoniumsulfate RNasecontrol RNasewith0.4MNaCl RNasewith0.4MAmmoniumsulfate Unheated Heated at 75 o C for 30 min
Figure 2. Effect of NP40 on RNAse heated to 75 o C. After heating ribonuclease at 75 !C for 20 or 30 min, native gel electrophoresis shows that NP40 is ineffective at reducing aggregation at concentrations below 1%. There is a significant reduction in aggregation at 2%. Heated at 75o C for 30 min Heated at 75o C for 20 min RNaseunheatedcontrol RNasecontrol RNasewith2%NP40 RNasewith1%NP40 RNasewith0.1%NP40 RNasewith2%NP40unheated RNasecontrol RNasewith2%NP40 RNasewith1%NP40 RNasewith0.1%NP40
Figure 3. Effects of additives RNase in 10 mM phosphate buffer at pH 6.4. Urea at 0.4 M enhances aggregation, while 0.2 M sucrose is not protective. Glycine at 0.4 M decreases aggregation significantly. Native gel at pH 6.1 RNasecontrol RNasewith0.4MUrea RNasewith0.2MSucrose RNasewith0.4MGlycine RNasecontrol RNasewith0.4MUrea RNasewith0.2MSucrose RNasewith0.4MGlycine Unheated Heated at 75 o C for 30 min
Figure 4. Effects of various additives on thermal stability. Additions were made to RNase in 10mM phosphate buffer at pH 6.4. Native gel at pH 6.1. RNasecontrol RNasewith0.2MSucrose RNasewith0.4MGlycine RNasewith0.4MNaCl RNasewith0.4MAmmoniumSulfate RNasecontrol RNasewith0.2MSucrose RNasewith0.2MGlycine RNasewith0.4MNaCl RNasewith0.4MAmmoniumSulfate Unheated control Heated at 75o C for 30 min. Unheated control
Results and Discussion on IGG A monoclonal antibody (which we will simply call IGG1) formulated in 19 mM Na phosphate, 0.2 M NaCl, pH 6.5 was heated to 75 !C and then analyzed by native gel electrophoresis. Notably, this antibody has a high melting temperature (melting onset of ~75 !C as assessed by CD thermal scan and DSC) and various additives have little effect on its melting temperature. As shown in Fig. 5, already at 5 min there is substantial aggregation, which increases with time. After 60 min, most of IGG1 converted to aggregates. The effects of Tween 80 at 0.001 to 1% were examined after heating for 40 min. There appear to be no changes in aggregation caused by the addition of this detergent (Fig. 6). Tween 20 also showed little effects on aggregation. IGG1 was heated for 20 to 60 min in the absence and presence of 0.1% Tween 20. Aggregation is unchanged by this detergent (Fig. 7). In the next group of experiments the 0.2 M NaCl was replaced with 0.2 M sucrose or glycine by dialysis. This replacement resulted in substantial stabilization of IGG1 as the monomer content is higher with these additives than with NaCl when IGG1 was heated for 20 to 60 min (Fig.8). It is not clear from this experiment whether removal of NaCl or addition of sucrose or glycine contributed to the observed stabilization. Other experiments demonstrated that the addition of NaCl increases aggregation of IGG1 upon heating (not shown). Next the 19 mM phosphate buffer was replaced with other buffers: 19 mM histidine-HCl, pH 6.5; 19 mM citrate, pH 6.5; 19 mM Tris-HCl, pH 7.0; or 19 mM glycine, pH 6.0. These samples were heated at 75 !C for 60 min. Aggregation was significantly less in histidine, Tris and glycine (Fig. 9). Sedimentation velocity data confirmed these significant differences among buffers in the amount and size distribution of soluble aggregates (not shown).
Figure 5. Effect of heating time on aggregation of IGG1. IGG1 formulated in 19 mM Na phophate, 0.2 M NaCl, pH 6.5 was heated at 75 !C and analyzed by native gel electrophoresis using a His/Mes buffer system. Already at 5 min incubation at this temperature there is substantial aggregation, which increases with time. After 60 min, most of IGG1 converted to aggregates. Native gel at pH 6.1. IGGunheatedControl IGGheatedat75o Cfor5minutes IGGheatedat75o Cfor10minutes IGGheatedat75o Cfor15minutes IGGheatedat75o Cfor60minutes
Figure 6. Effects of Tween 80. After heating at 75 °C for 40 min, there appear to be no changes in aggregation by the addition of this detergent. IGG1 in 0.2M NaCl, 19 mM phosphate buffer, pH 6.5. Native gel at pH 6.1. Unheated Heatedfor20min. Heatedfor30min. Heatedfor40min. IGGwith1%Tween80 IGGwith0.1%Tween80 Heatedfor40min.IGGwith0.01%Tween80 IGGwith0.001%Tween80 UnheatedIGGwith1%Tween80 UnheatedIGGwith0.001%Tween80 IGGwithoutTwen80
Figure 7. Effects of Tween 20. IGG1 was heated for 20 to 60 min in the absence and presence of 1% Tween 20. Aggregation is unchanged by this detergent. IGG1 in 0.2M NaCl, 19mM phosphate buffer, pH 6.5. Native gel at pH 6.1. Unheated Heatedfor20min. Heatedfor40min. Heatedfor60min. Heatedfor20min. IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith0.1%Tween20
Figure 8. Comparison of additives, NaCl, sucrose and glycine. In this experiment, the 0.2 M NaCl present in the previous experiments was replaced with 0.2 M sucrose or glycine by dialysis. This replacement resulted in substantial stabilization of IGG. It is not clear from this experiment whether removal of NaCl or addition of sucrose or glycine contributed to the observed stabilization. It was later demonstrated that the addition of NaCl increases aggregation of IGG upon heating (not shown). IGG1 in 19 mM phosphate buffer, pH 6.5. Native gel at pH 6.1. IGGwith0.2MNaCl IGGwith0.2MGlycineHeatedfor20minutes IGGwith0.2MSucrose IGGwith0.2MNaCl IGGwith0.2MGlycineHeatedfor40minutes IGGwith0.2MSucrose IGGwith0.2MNaCl IGGwith0.2MGlycineHeatedfor60minutes IGGwith0.2MSucrose IGGunheatedControl
Figure 9. Effects of different buffers. In this experiment, 19 mM phosphate was replaced with other buffers: 19 mM histidine-HCl, pH 6.5; 19 mM citrate, pH 6.5; 19 mM Tris-HCl, pH 7.0; or 19 mM glycine, pH 6.0. These samples were heated at 75 !C for 60 min. Aggregation was significantly less in histidine, Tris or glycine. Native gel at pH 6.1. IGGin19mMNaphosphate,pH6.5 IGGin19mMHistidine-HCl,pH6.5 IGGin19mMCitrate,pH6.5 IGGin19mMTris-HCl,pH7.0 IGGin19mMGlycine,pH6.0 IGGin19mMNaphosphate,pH6.5 IGGin19mMHistidine-HCl,pH6.5 IGGin19mMCitrate,pH6.5 IGGin19mMTris-HCl,pH7.0 IGGin19mMGlycine,pH6.0 Unheated Control Heated for 60 minutes

Recommandé

04 life processes_of_cell__ar
04 life processes_of_cell__ar04 life processes_of_cell__ar
04 life processes_of_cell__ar
JAWAHAR NAVODAYA VIDYALAYA KANKER
 
Allergy And Ginseng Case Study
Allergy And Ginseng Case StudyAllergy And Ginseng Case Study
Allergy And Ginseng Case Study
Eugene Fung
 
Rate of reaction chemical kinetics (condensed)
Rate of reaction chemical kinetics (condensed)Rate of reaction chemical kinetics (condensed)
Rate of reaction chemical kinetics (condensed)
jslayer
 
Nonthermal Plasma for handling Chicken meat
Nonthermal Plasma for handling Chicken meatNonthermal Plasma for handling Chicken meat
Nonthermal Plasma for handling Chicken meat
Gedeunud
 
Combined sci c7 syllabus
Combined sci c7 syllabusCombined sci c7 syllabus
Combined sci c7 syllabus
cartlidge
 
Kinetic study of free and immobilized protease from Aspergillus sp.
Kinetic study of free and immobilized protease from Aspergillus sp.Kinetic study of free and immobilized protease from Aspergillus sp.
Kinetic study of free and immobilized protease from Aspergillus sp.
IOSR Journals
 
Tannase
TannaseTannase
Tannase
Dr. Bikram Jit Singh
 
20180926230120_73171.pdf
20180926230120_73171.pdf20180926230120_73171.pdf
20180926230120_73171.pdf
Federal university of Rio de Janeiro
 

Recommandé

04 life processes_of_cell__ar
04 life processes_of_cell__ar04 life processes_of_cell__ar
04 life processes_of_cell__ar
JAWAHAR NAVODAYA VIDYALAYA KANKER
 
Allergy And Ginseng Case Study
Allergy And Ginseng Case StudyAllergy And Ginseng Case Study
Allergy And Ginseng Case Study
Eugene Fung
 
Rate of reaction chemical kinetics (condensed)
Rate of reaction chemical kinetics (condensed)Rate of reaction chemical kinetics (condensed)
Rate of reaction chemical kinetics (condensed)
jslayer
 
Nonthermal Plasma for handling Chicken meat
Nonthermal Plasma for handling Chicken meatNonthermal Plasma for handling Chicken meat
Nonthermal Plasma for handling Chicken meat
Gedeunud
 
Combined sci c7 syllabus
Combined sci c7 syllabusCombined sci c7 syllabus
Combined sci c7 syllabus
cartlidge
 
Kinetic study of free and immobilized protease from Aspergillus sp.
Kinetic study of free and immobilized protease from Aspergillus sp.Kinetic study of free and immobilized protease from Aspergillus sp.
Kinetic study of free and immobilized protease from Aspergillus sp.
IOSR Journals
 
Tannase
TannaseTannase
Tannase
Dr. Bikram Jit Singh
 
20180926230120_73171.pdf
20180926230120_73171.pdf20180926230120_73171.pdf
20180926230120_73171.pdf
Federal university of Rio de Janeiro
 
Characterization of tannase- IJGEB
Characterization of tannase- IJGEBCharacterization of tannase- IJGEB
Characterization of tannase- IJGEB
Dr. Seema Bhanwar
 
Heat induced differential proteomic changes reveal molecular mechanisms respo...
Heat induced differential proteomic changes reveal molecular mechanisms respo...Heat induced differential proteomic changes reveal molecular mechanisms respo...
Heat induced differential proteomic changes reveal molecular mechanisms respo...
ICRISAT
 
Effect of Temperature and pH on enzyme activity
Effect of Temperature and pH on enzyme activityEffect of Temperature and pH on enzyme activity
Effect of Temperature and pH on enzyme activity
clairebloom
 
Ag ab i (dwd)
Ag ab i (dwd)Ag ab i (dwd)
Ag ab i (dwd)
deepak deshkar
 
ICAD2008#1 final#2
ICAD2008#1 final#2ICAD2008#1 final#2
ICAD2008#1 final#2
Matthew Rotondi
 
BS ABM 2014
BS ABM 2014BS ABM 2014
BS ABM 2014
Andrei Vainer
 
Uncatalyzed Esterification of Carboxylic Acid
Uncatalyzed Esterification of Carboxylic AcidUncatalyzed Esterification of Carboxylic Acid
Uncatalyzed Esterification of Carboxylic Acid
Kehinde (Kenny) Bankole
 
Takai2005 (2)
Takai2005 (2)Takai2005 (2)
Takai2005 (2)
Everton Monteiro
 
Takai2005
Takai2005Takai2005
Takai2005
Everton Monteiro
 
Antigen –antibody reaction (Part :01)
Antigen –antibody reaction (Part :01)Antigen –antibody reaction (Part :01)
Antigen –antibody reaction (Part :01)
Dr. Nimra Khan
 
Antigen antibody reaction
Antigen antibody reactionAntigen antibody reaction
Antigen antibody reaction
Ratheeshkrishnakripa
 
Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253)
Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253) Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253)
Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253)
St John's Laboratory Ltd
 
Antigen antibody reactions
Antigen antibody reactionsAntigen antibody reactions
Antigen antibody reactions
Deepak Chaudhary
 
Chapter 18
Chapter 18Chapter 18
Chapter 18
Malcolm Harrison
 
B.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_Catalysis
B.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_CatalysisB.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_Catalysis
B.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_Catalysis
Department of Biochemistry, Veer Bahadur Singh Purvanchal Univarsity, Jaunpur
 
Ag-Ab reactions Microbiology
Ag-Ab reactions MicrobiologyAg-Ab reactions Microbiology
Ag-Ab reactions Microbiology
Ghawas
 
Antigen - antibody reaction based on medical science
Antigen - antibody reaction based on medical scienceAntigen - antibody reaction based on medical science
Antigen - antibody reaction based on medical science
KAVIN6369950450
 
C7 syllabus statements
C7 syllabus statementsC7 syllabus statements
C7 syllabus statements
cartlidge
 
Antigen –antibody reaction
Antigen –antibody reactionAntigen –antibody reaction
Antigen –antibody reaction
hitech medical college
 
Ag-Ab Reactions
Ag-Ab ReactionsAg-Ab Reactions
Ag-Ab Reactions
Pulipati Sowjanya
 
White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...
White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...
White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...
Fedegari Group
 
LignosulfonateHydrogels_MaikaBui
LignosulfonateHydrogels_MaikaBuiLignosulfonateHydrogels_MaikaBui
LignosulfonateHydrogels_MaikaBui
Maika Bui
 

Contenu connexe

Tendances

Characterization of tannase- IJGEB
Characterization of tannase- IJGEBCharacterization of tannase- IJGEB
Characterization of tannase- IJGEB
Dr. Seema Bhanwar
 
Effect of Temperature and pH on enzyme activity
Effect of Temperature and pH on enzyme activityEffect of Temperature and pH on enzyme activity
Effect of Temperature and pH on enzyme activity
clairebloom
 
Uncatalyzed Esterification of Carboxylic Acid
Uncatalyzed Esterification of Carboxylic AcidUncatalyzed Esterification of Carboxylic Acid
Uncatalyzed Esterification of Carboxylic Acid
Kehinde (Kenny) Bankole
 
Antigen - antibody reaction based on medical science
Antigen - antibody reaction based on medical scienceAntigen - antibody reaction based on medical science
Antigen - antibody reaction based on medical science
KAVIN6369950450
 
C7 syllabus statements
C7 syllabus statementsC7 syllabus statements
C7 syllabus statements
cartlidge
 

Tendances (20)

Characterization of tannase- IJGEB
Characterization of tannase- IJGEBCharacterization of tannase- IJGEB
Characterization of tannase- IJGEB
 
Heat induced differential proteomic changes reveal molecular mechanisms respo...
Heat induced differential proteomic changes reveal molecular mechanisms respo...Heat induced differential proteomic changes reveal molecular mechanisms respo...
Heat induced differential proteomic changes reveal molecular mechanisms respo...
 
Effect of Temperature and pH on enzyme activity
Effect of Temperature and pH on enzyme activityEffect of Temperature and pH on enzyme activity
Effect of Temperature and pH on enzyme activity
 
Ag ab i (dwd)
Ag ab i (dwd)Ag ab i (dwd)
Ag ab i (dwd)
 
ICAD2008#1 final#2
ICAD2008#1 final#2ICAD2008#1 final#2
ICAD2008#1 final#2
 
BS ABM 2014
BS ABM 2014BS ABM 2014
BS ABM 2014
 
Uncatalyzed Esterification of Carboxylic Acid
Uncatalyzed Esterification of Carboxylic AcidUncatalyzed Esterification of Carboxylic Acid
Uncatalyzed Esterification of Carboxylic Acid
 
Takai2005 (2)
Takai2005 (2)Takai2005 (2)
Takai2005 (2)
 
Takai2005
Takai2005Takai2005
Takai2005
 
Antigen –antibody reaction (Part :01)
Antigen –antibody reaction (Part :01)Antigen –antibody reaction (Part :01)
Antigen –antibody reaction (Part :01)
 
Antigen antibody reaction
Antigen antibody reactionAntigen antibody reaction
Antigen antibody reaction
 
Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253)
Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253) Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253)
Antibody Customer Review For Phospho-eIF2α (S51) Polyclonal Antibody (STJ90253)
 
Antigen antibody reactions
Antigen antibody reactionsAntigen antibody reactions
Antigen antibody reactions
 
Chapter 18
Chapter 18Chapter 18
Chapter 18
 
B.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_Catalysis
B.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_CatalysisB.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_Catalysis
B.Sc. I Year Physical Chemistry_Unit-IV_B. Chemical Kinetics_Catalysis
 
Ag-Ab reactions Microbiology
Ag-Ab reactions MicrobiologyAg-Ab reactions Microbiology
Ag-Ab reactions Microbiology
 
Antigen - antibody reaction based on medical science
Antigen - antibody reaction based on medical scienceAntigen - antibody reaction based on medical science
Antigen - antibody reaction based on medical science
 
C7 syllabus statements
C7 syllabus statementsC7 syllabus statements
C7 syllabus statements
 
Antigen –antibody reaction
Antigen –antibody reactionAntigen –antibody reaction
Antigen –antibody reaction
 
Ag-Ab Reactions
Ag-Ab ReactionsAg-Ab Reactions
Ag-Ab Reactions
 

Similaire à Effects of Additives on Reversibility of Thermal Unfolding

LignosulfonateHydrogels_MaikaBui
LignosulfonateHydrogels_MaikaBuiLignosulfonateHydrogels_MaikaBui
LignosulfonateHydrogels_MaikaBui
Maika Bui
 
Improving the Synthesis of Lidocaine_2014_Odneal_Aills_Jeffery
Improving the Synthesis of Lidocaine_2014_Odneal_Aills_JefferyImproving the Synthesis of Lidocaine_2014_Odneal_Aills_Jeffery
Improving the Synthesis of Lidocaine_2014_Odneal_Aills_Jeffery
Stephanie Melton
 
simona Enzymatiy Fatty Ester Synthesis
simona Enzymatiy Fatty Ester Synthesissimona Enzymatiy Fatty Ester Synthesis
simona Enzymatiy Fatty Ester Synthesis
Simona Pe?nik Posel
 
Investigation of the effect of different parameters on the phase inversion te...
Investigation of the effect of different parameters on the phase inversion te...Investigation of the effect of different parameters on the phase inversion te...
Investigation of the effect of different parameters on the phase inversion te...
Nanomedicine Journal (NMJ)
 
SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...
SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...
SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...
Iranian Chemical Society
 
Expression and Purification of His-tag β-galactosidase Enzyme from E.coli
Expression and Purification of His-tag β-galactosidase Enzyme from E.coli Expression and Purification of His-tag β-galactosidase Enzyme from E.coli
Expression and Purification of His-tag β-galactosidase Enzyme from E.coli
Surayya Sana
 
Industrial Production Process for Interferon
Industrial Production Process for InterferonIndustrial Production Process for Interferon
Industrial Production Process for Interferon
Douglas Cohen
 
Protocol_GTK_glycan_booklet
Protocol_GTK_glycan_bookletProtocol_GTK_glycan_booklet
Protocol_GTK_glycan_booklet
Amber Cook
 

Similaire à Effects of Additives on Reversibility of Thermal Unfolding (20)

White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...
White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...
White Paper - Thermal sterilization of Pre-filled Syringes (PFS) with hyaluro...
 
LignosulfonateHydrogels_MaikaBui
LignosulfonateHydrogels_MaikaBuiLignosulfonateHydrogels_MaikaBui
LignosulfonateHydrogels_MaikaBui
 
Improving the Synthesis of Lidocaine_2014_Odneal_Aills_Jeffery
Improving the Synthesis of Lidocaine_2014_Odneal_Aills_JefferyImproving the Synthesis of Lidocaine_2014_Odneal_Aills_Jeffery
Improving the Synthesis of Lidocaine_2014_Odneal_Aills_Jeffery
 
final lab report
final lab reportfinal lab report
final lab report
 
The kinetics of ascorbic acid degradation in ogbono soup
The kinetics of ascorbic acid degradation in ogbono soupThe kinetics of ascorbic acid degradation in ogbono soup
The kinetics of ascorbic acid degradation in ogbono soup
 
simona Enzymatiy Fatty Ester Synthesis
simona Enzymatiy Fatty Ester Synthesissimona Enzymatiy Fatty Ester Synthesis
simona Enzymatiy Fatty Ester Synthesis
 
Investigation of the effect of different parameters on the phase inversion te...
Investigation of the effect of different parameters on the phase inversion te...Investigation of the effect of different parameters on the phase inversion te...
Investigation of the effect of different parameters on the phase inversion te...
 
shao2003.pdf
shao2003.pdfshao2003.pdf
shao2003.pdf
 
final lab report
final lab reportfinal lab report
final lab report
 
Research articles enzyme optimization studies.
Research articles enzyme optimization studies.Research articles enzyme optimization studies.
Research articles enzyme optimization studies.
 
SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...
SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...
SiO2@FeSO4 nano composite: A recoverable nano-catalyst for eco-friendly synth...
 
Expression and Purification of His-tag β-galactosidase Enzyme from E.coli
Expression and Purification of His-tag β-galactosidase Enzyme from E.coli Expression and Purification of His-tag β-galactosidase Enzyme from E.coli
Expression and Purification of His-tag β-galactosidase Enzyme from E.coli
 
ICEF 2011
ICEF 2011ICEF 2011
ICEF 2011
 
Antigen Retrieval.pptx
Antigen Retrieval.pptxAntigen Retrieval.pptx
Antigen Retrieval.pptx
 
MICROBIOLOGY biochemical test detailed.pptx
MICROBIOLOGY biochemical test detailed.pptxMICROBIOLOGY biochemical test detailed.pptx
MICROBIOLOGY biochemical test detailed.pptx
 
Enzyme Labs Poster annotated
Enzyme Labs Poster annotatedEnzyme Labs Poster annotated
Enzyme Labs Poster annotated
 
2 Group AAkash, mumne and Vishal.pptx
2 Group AAkash, mumne and Vishal.pptx2 Group AAkash, mumne and Vishal.pptx
2 Group AAkash, mumne and Vishal.pptx
 
Studies on the Fries Rearrangement of Sulfonanilides to Sulfones
Studies on the Fries Rearrangement of Sulfonanilides to SulfonesStudies on the Fries Rearrangement of Sulfonanilides to Sulfones
Studies on the Fries Rearrangement of Sulfonanilides to Sulfones
 
Industrial Production Process for Interferon
Industrial Production Process for InterferonIndustrial Production Process for Interferon
Industrial Production Process for Interferon
 
Protocol_GTK_glycan_booklet
Protocol_GTK_glycan_bookletProtocol_GTK_glycan_booklet
Protocol_GTK_glycan_booklet
 

Plus de KBI Biopharma

Calorimetry study of a mAb that precipitates upon thermal denaturation
Calorimetry study of a mAb that precipitates upon thermal denaturationCalorimetry study of a mAb that precipitates upon thermal denaturation
Calorimetry study of a mAb that precipitates upon thermal denaturation
KBI Biopharma
 
Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...
Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...
Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...
KBI Biopharma
 
New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...
New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...
New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...
KBI Biopharma
 
Some Biophysical Methods for Demonstrating Comparability of Conformation and ...
Some Biophysical Methods for Demonstrating Comparability of Conformation and ...Some Biophysical Methods for Demonstrating Comparability of Conformation and ...
Some Biophysical Methods for Demonstrating Comparability of Conformation and ...
KBI Biopharma
 

Plus de KBI Biopharma (20)

Data Collection on the ProteinSimple Maurice: Driving Compliance with the Emp...
Data Collection on the ProteinSimple Maurice: Driving Compliance with the Emp...Data Collection on the ProteinSimple Maurice: Driving Compliance with the Emp...
Data Collection on the ProteinSimple Maurice: Driving Compliance with the Emp...
 
Integration of Cell Line and Process Development to Expedite Delivery of Bisp...
Integration of Cell Line and Process Development to Expedite Delivery of Bisp...Integration of Cell Line and Process Development to Expedite Delivery of Bisp...
Integration of Cell Line and Process Development to Expedite Delivery of Bisp...
 
High-throughput and Automated Process Development for Accelerated Biotherapeu...
High-throughput and Automated Process Development for Accelerated Biotherapeu...High-throughput and Automated Process Development for Accelerated Biotherapeu...
High-throughput and Automated Process Development for Accelerated Biotherapeu...
 
Debottlenecking Manufacturing Capacity Using High Seed Density Production Pro...
Debottlenecking Manufacturing Capacity Using High Seed Density Production Pro...Debottlenecking Manufacturing Capacity Using High Seed Density Production Pro...
Debottlenecking Manufacturing Capacity Using High Seed Density Production Pro...
 
Application and Adaptation of Platform and Alternative Purification Steps to ...
Application and Adaptation of Platform and Alternative Purification Steps to ...Application and Adaptation of Platform and Alternative Purification Steps to ...
Application and Adaptation of Platform and Alternative Purification Steps to ...
 
Primary Recovery & Harvest Processes for non-mAb Recombinant Proteins
Primary Recovery & Harvest Processes for non-mAb Recombinant ProteinsPrimary Recovery & Harvest Processes for non-mAb Recombinant Proteins
Primary Recovery & Harvest Processes for non-mAb Recombinant Proteins
 
Compressed Timelines for Breakthrough Therapies: Impact on Process Characteri...
Compressed Timelines for Breakthrough Therapies: Impact on Process Characteri...Compressed Timelines for Breakthrough Therapies: Impact on Process Characteri...
Compressed Timelines for Breakthrough Therapies: Impact on Process Characteri...
 
Speed to GMP: Moving from Rapid Process Development to High Throughput Tech T...
Speed to GMP: Moving from Rapid Process Development to High Throughput Tech T...Speed to GMP: Moving from Rapid Process Development to High Throughput Tech T...
Speed to GMP: Moving from Rapid Process Development to High Throughput Tech T...
 
Implementation of End-to-End Disposable Single Use Systems for Rapid Fermenta...
Implementation of End-to-End Disposable Single Use Systems for Rapid Fermenta...Implementation of End-to-End Disposable Single Use Systems for Rapid Fermenta...
Implementation of End-to-End Disposable Single Use Systems for Rapid Fermenta...
 
Host Cell Protein Analysis by Mass Spectrometry | KBI Biopharma
Host Cell Protein Analysis by Mass Spectrometry | KBI BiopharmaHost Cell Protein Analysis by Mass Spectrometry | KBI Biopharma
Host Cell Protein Analysis by Mass Spectrometry | KBI Biopharma
 
Handling High Titer Processes and Strategies for DSP Facility Fit | KBI Biop...
Handling High Titer Processes and Strategies for DSP Facility Fit | KBI Biop...Handling High Titer Processes and Strategies for DSP Facility Fit | KBI Biop...
Handling High Titer Processes and Strategies for DSP Facility Fit | KBI Biop...
 
Octet Potency Assay: Development, Qualification and Validation Strategies
Octet Potency Assay: Development, Qualification and Validation StrategiesOctet Potency Assay: Development, Qualification and Validation Strategies
Octet Potency Assay: Development, Qualification and Validation Strategies
 
Fine-tuning your purification process: Using mechanistic modeling of chromato...
Fine-tuning your purification process: Using mechanistic modeling of chromato...Fine-tuning your purification process: Using mechanistic modeling of chromato...
Fine-tuning your purification process: Using mechanistic modeling of chromato...
 
HIV Vaccines Process Development & Manufacturing - Pitfalls & Possibilities
HIV Vaccines Process Development & Manufacturing - Pitfalls & PossibilitiesHIV Vaccines Process Development & Manufacturing - Pitfalls & Possibilities
HIV Vaccines Process Development & Manufacturing - Pitfalls & Possibilities
 
Calorimetry study of a mAb that precipitates upon thermal denaturation
Calorimetry study of a mAb that precipitates upon thermal denaturationCalorimetry study of a mAb that precipitates upon thermal denaturation
Calorimetry study of a mAb that precipitates upon thermal denaturation
 
Size-Exclusion Chromatography with On-Line Light-Scattering, Absorbance, and ...
Size-Exclusion Chromatography with On-Line Light-Scattering, Absorbance, and ...Size-Exclusion Chromatography with On-Line Light-Scattering, Absorbance, and ...
Size-Exclusion Chromatography with On-Line Light-Scattering, Absorbance, and ...
 
Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...
Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...
Analysis of Aggregation, Stability, and Lot Comparability by Sedimentation Ve...
 
New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...
New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...
New Software Methods Enhance Sedimentation Velocity Analysis of Protein Aggre...
 
Online Size-Exclusion High-Performance Liquid Chromatography Light Scattering...
Online Size-Exclusion High-Performance Liquid Chromatography Light Scattering...Online Size-Exclusion High-Performance Liquid Chromatography Light Scattering...
Online Size-Exclusion High-Performance Liquid Chromatography Light Scattering...
 
Some Biophysical Methods for Demonstrating Comparability of Conformation and ...
Some Biophysical Methods for Demonstrating Comparability of Conformation and ...Some Biophysical Methods for Demonstrating Comparability of Conformation and ...
Some Biophysical Methods for Demonstrating Comparability of Conformation and ...
 

Dernier

Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...
Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...
Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...
karishmasinghjnh
 
Call Girls Hosur Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Hosur Just Call 9630942363 Top Class Call Girl Service AvailableCall Girls Hosur Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Hosur Just Call 9630942363 Top Class Call Girl Service Available
GENUINE ESCORT AGENCY
 
Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...
Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...
Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...
Anamika Rawat
 
Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426
Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426
Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426
jennyeacort
 
Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...
Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...
Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...
chetankumar9855
 
Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...
Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...
Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...
parulsinha
 
Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...
Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...
Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...
khalifaescort01
 
Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...
Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...
Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...
Sheetaleventcompany
 
Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...
Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...
Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...
Ishani Gupta
 
Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...
Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...
Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...
Dipal Arora
 
Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7
Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7
Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7
9953056974 Low Rate Call Girls In Saket, Delhi NCR
 
Call Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service Available
Call Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service AvailableCall Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service Available
Call Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service Available
perfect solution
 
Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...
Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...
Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...
chennailover
 
Call Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service AvailableCall Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service Available
GENUINE ESCORT AGENCY
 
Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...
Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...
Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...
hotbabesbook
 
Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...
Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...
Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...
vidya singh
 
Call Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service Available
Call Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service AvailableCall Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service Available
Call Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service Available
Dipal Arora
 
Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...
Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...
Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...
Anamika Rawat
 
All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...
All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...
All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...
Arohi Goyal
 

Dernier (20)

Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...
Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...
Independent Call Girls Service Mohali Sector 116 | 6367187148 | Call Girl Ser...
 
Call Girls Hosur Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Hosur Just Call 9630942363 Top Class Call Girl Service AvailableCall Girls Hosur Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Hosur Just Call 9630942363 Top Class Call Girl Service Available
 
Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...
Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...
Andheri East ) Call Girls in Mumbai Phone No 9004268417 Elite Escort Service ...
 
Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426
Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426
Call Girls in Delhi Triveni Complex Escort Service(🔝))/WhatsApp 97111⇛47426
 
Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...
Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...
Call Girl In Pune 👉 Just CALL ME: 9352988975 💋 Call Out Call Both With High p...
 
8980367676 Call Girls In Ahmedabad Escort Service Available 24×7 In Ahmedabad
8980367676 Call Girls In Ahmedabad Escort Service Available 24×7 In Ahmedabad8980367676 Call Girls In Ahmedabad Escort Service Available 24×7 In Ahmedabad
8980367676 Call Girls In Ahmedabad Escort Service Available 24×7 In Ahmedabad
 
Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...
Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...
Russian Call Girls Service Jaipur {8445551418} ❤️PALLAVI VIP Jaipur Call Gir...
 
Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...
Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...
Call Girls Service Jaipur {9521753030 } ❤️VVIP BHAWNA Call Girl in Jaipur Raj...
 
Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...
Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...
Call Girls Service Jaipur {9521753030} ❤️VVIP RIDDHI Call Girl in Jaipur Raja...
 
Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...
Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...
Mumbai ] (Call Girls) in Mumbai 10k @ I'm VIP Independent Escorts Girls 98333...
 
Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...
Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...
Best Rate (Patna ) Call Girls Patna ⟟ 8617370543 ⟟ High Class Call Girl In 5 ...
 
Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7
Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7
Call Girls in Gagan Vihar (delhi) call me [🔝 9953056974 🔝] escort service 24X7
 
Call Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service Available
Call Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service AvailableCall Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service Available
Call Girls Rishikesh Just Call 9667172968 Top Class Call Girl Service Available
 
Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...
Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...
Coimbatore Call Girls in Thudiyalur : 7427069034 High Profile Model Escorts |...
 
Call Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service AvailableCall Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service Available
Call Girls Ahmedabad Just Call 9630942363 Top Class Call Girl Service Available
 
Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...
Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...
Model Call Girls In Chennai WhatsApp Booking 7427069034 call girl service 24 ...
 
Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...
Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...
Manyata Tech Park ( Call Girls ) Bangalore ✔ 6297143586 ✔ Hot Model With Sexy...
 
Call Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service Available
Call Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service AvailableCall Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service Available
Call Girls Hyderabad Just Call 8250077686 Top Class Call Girl Service Available
 
Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...
Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...
Jogeshwari ! Call Girls Service Mumbai - 450+ Call Girl Cash Payment 90042684...
 
All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...
All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...
All Time Service Available Call Girls Marine Drive 📳 9820252231 For 18+ VIP C...
 

Effects of Additives on Reversibility of Thermal Unfolding

  • 1. Effects of Additives on Reversibility of Thermal Unfolding Yoshiko Kita, John S. Philo and Tsutomu Arakawa Alliance Protein Laboratories, Thousand Oaks, CA; 805-388-1074 fax 805-388-7252, http://www.ap-lab.com Abstract Irreversible reactions following unfolding cause loss of proteins during purification, handling, and storage. Proteins unfold at high temperatures, but when that unfolding is reversible they can refold into the native structure. When unfolding is not reversible, increasing the reversibility can minimize protein loss and may enhance long-term stability. 1 We have studied the effects of various additives on the reversibility of thermal unfolding using native gels and sedimentation velocity to characterize the products of unfolding. Two basic proteins were examined in this study, ribonuclease and a monoclonal antibody, IGG1. When ribonuclease was heated to 75 ºC and then cooled to room temperature it generated new low-mobility bands on native gels, corresponding to aggregates. The proportions of monomer and aggregates were unchanged upon addition of various detergents, indicating that detergents do not inhibit heat-induced aggregation. Sucrose also had no effect, and glycine was only marginally effective. In contrast, ammonium sulfate and sodium chloride resulted a marked increase in monomer content. Similar studies of IGG1 again showed substantial loss of native monomer and formation of aggregates after heating to 75 ºC, but a totally opposite pattern of stabilization by additives. In this case sucrose and glycine were effective protectants, while salts promote aggregation. Among a number of buffers tested histidine and glycine buffers showed significant stabilization. These studies show that it is possible to increase the reversibility of thermal unfolding by altering solvent conditions, but we are unable to predict which additives will be protective. Since some unfolding always occurs spontaneously even at low temperatures, it is possible that the same additives can enhance storage stability by increasing the reversibility of the unfolding reaction. Purpose An accelerated stability study was carried out to screen additives for their ability to enhance the stability of proteins against irreversible aggregation due to thermal unfolding. Methods Proteins were subjected to high temperature and analyzed by native gel electrophoresis. Since the proteins used here (ribonuclease and IGG1) have basic isoelectric points, a His/Mes buffer system was used. CD thermal scans were also used to examine the effects of additives on melting temperature and reversibility of thermal unfolding of the proteins. 1 Narhi, L.O., Philo, J.S., Sun, B., Chang, B.S., and Arakawa, T. (1999). Reversibility of heat-induced denaturation of the recombinant human megakaryocyte growth and development factor. Pharm. Res. 16, 799-807.
  • 2. Results and Discussion on Ribonuclease CD thermal scans of ribonuclease in 10 mM phosphate, pH 6.4 show that the melting temperature of ribonuclease is relatively constant in the presence of the additives tested, except for ammonium sulfate (see Table 1). In general, these additives are known to exert their effects at higher concentrations. However, the reversibility of thermal unfolding is highly variable. Ammonium sulfate at 0.4 M gives the highest reversibility, which may be in part due to the high melting temperature observed with this salt. NaCl and glycine at 0.4 M increase the reversibility somewhat, while their effects on melting temperature are insignificant. To further examine irreversible effects after denaturation, ribonuclease was heated at 75 !C and then analyzed by native gel electrophoresis. As can be seen in all 4 gels shown in Figures 1-4, the control sample showed formation of a new band, corresponding to soluble aggregates. (Note that there is no visible precipitation or turbidity in either these experiments or the CD experiments.) NaCl and ammonium sulfate at 0.4 M conferred great protection, since there is no apparent formation of the new band (Fig. 1). NP40 is ineffective below 1% (Fig.2), but there is a significant change in aggregation at 2%. Urea at 0.4 M enhances aggregation, while 0.2 M sucrose is not protective (Fig.3). Glycine at 0.4 M decreased aggregation significantly (Figs. 3 and 4).
  • 3. Figure 1. RNase in 10 mM phosphate buffer at pH6.4 plus various additives. Ribonuclease was heated at 75 !C and analyzed by native gel electrophoresis using a His/Mes buffer system. The control sample showed formation of a new band, corresponding to soluble aggregates. (Note that there is no visible precipitation.) NaCl and ammonium sulfate at 0.4 M conferred great protection, since there is no apparent formation of the new band. Native gel at pH 6.1. RNasecontrol RNasewith0.4MNaCl RNasewith0.4MAmmoniumsulfate RNasecontrol RNasewith0.4MNaCl RNasewith0.4MAmmoniumsulfate Unheated Heated at 75 o C for 30 min
  • 4. Figure 2. Effect of NP40 on RNAse heated to 75 o C. After heating ribonuclease at 75 !C for 20 or 30 min, native gel electrophoresis shows that NP40 is ineffective at reducing aggregation at concentrations below 1%. There is a significant reduction in aggregation at 2%. Heated at 75o C for 30 min Heated at 75o C for 20 min RNaseunheatedcontrol RNasecontrol RNasewith2%NP40 RNasewith1%NP40 RNasewith0.1%NP40 RNasewith2%NP40unheated RNasecontrol RNasewith2%NP40 RNasewith1%NP40 RNasewith0.1%NP40
  • 5. Figure 3. Effects of additives RNase in 10 mM phosphate buffer at pH 6.4. Urea at 0.4 M enhances aggregation, while 0.2 M sucrose is not protective. Glycine at 0.4 M decreases aggregation significantly. Native gel at pH 6.1 RNasecontrol RNasewith0.4MUrea RNasewith0.2MSucrose RNasewith0.4MGlycine RNasecontrol RNasewith0.4MUrea RNasewith0.2MSucrose RNasewith0.4MGlycine Unheated Heated at 75 o C for 30 min
  • 6. Figure 4. Effects of various additives on thermal stability. Additions were made to RNase in 10mM phosphate buffer at pH 6.4. Native gel at pH 6.1. RNasecontrol RNasewith0.2MSucrose RNasewith0.4MGlycine RNasewith0.4MNaCl RNasewith0.4MAmmoniumSulfate RNasecontrol RNasewith0.2MSucrose RNasewith0.2MGlycine RNasewith0.4MNaCl RNasewith0.4MAmmoniumSulfate Unheated control Heated at 75o C for 30 min. Unheated control
  • 7. Results and Discussion on IGG A monoclonal antibody (which we will simply call IGG1) formulated in 19 mM Na phosphate, 0.2 M NaCl, pH 6.5 was heated to 75 !C and then analyzed by native gel electrophoresis. Notably, this antibody has a high melting temperature (melting onset of ~75 !C as assessed by CD thermal scan and DSC) and various additives have little effect on its melting temperature. As shown in Fig. 5, already at 5 min there is substantial aggregation, which increases with time. After 60 min, most of IGG1 converted to aggregates. The effects of Tween 80 at 0.001 to 1% were examined after heating for 40 min. There appear to be no changes in aggregation caused by the addition of this detergent (Fig. 6). Tween 20 also showed little effects on aggregation. IGG1 was heated for 20 to 60 min in the absence and presence of 0.1% Tween 20. Aggregation is unchanged by this detergent (Fig. 7). In the next group of experiments the 0.2 M NaCl was replaced with 0.2 M sucrose or glycine by dialysis. This replacement resulted in substantial stabilization of IGG1 as the monomer content is higher with these additives than with NaCl when IGG1 was heated for 20 to 60 min (Fig.8). It is not clear from this experiment whether removal of NaCl or addition of sucrose or glycine contributed to the observed stabilization. Other experiments demonstrated that the addition of NaCl increases aggregation of IGG1 upon heating (not shown). Next the 19 mM phosphate buffer was replaced with other buffers: 19 mM histidine-HCl, pH 6.5; 19 mM citrate, pH 6.5; 19 mM Tris-HCl, pH 7.0; or 19 mM glycine, pH 6.0. These samples were heated at 75 !C for 60 min. Aggregation was significantly less in histidine, Tris and glycine (Fig. 9). Sedimentation velocity data confirmed these significant differences among buffers in the amount and size distribution of soluble aggregates (not shown).
  • 8. Figure 5. Effect of heating time on aggregation of IGG1. IGG1 formulated in 19 mM Na phophate, 0.2 M NaCl, pH 6.5 was heated at 75 !C and analyzed by native gel electrophoresis using a His/Mes buffer system. Already at 5 min incubation at this temperature there is substantial aggregation, which increases with time. After 60 min, most of IGG1 converted to aggregates. Native gel at pH 6.1. IGGunheatedControl IGGheatedat75o Cfor5minutes IGGheatedat75o Cfor10minutes IGGheatedat75o Cfor15minutes IGGheatedat75o Cfor60minutes
  • 9. Figure 6. Effects of Tween 80. After heating at 75 °C for 40 min, there appear to be no changes in aggregation by the addition of this detergent. IGG1 in 0.2M NaCl, 19 mM phosphate buffer, pH 6.5. Native gel at pH 6.1. Unheated Heatedfor20min. Heatedfor30min. Heatedfor40min. IGGwith1%Tween80 IGGwith0.1%Tween80 Heatedfor40min.IGGwith0.01%Tween80 IGGwith0.001%Tween80 UnheatedIGGwith1%Tween80 UnheatedIGGwith0.001%Tween80 IGGwithoutTwen80
  • 10. Figure 7. Effects of Tween 20. IGG1 was heated for 20 to 60 min in the absence and presence of 1% Tween 20. Aggregation is unchanged by this detergent. IGG1 in 0.2M NaCl, 19mM phosphate buffer, pH 6.5. Native gel at pH 6.1. Unheated Heatedfor20min. Heatedfor40min. Heatedfor60min. Heatedfor20min. IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith1%Tween20 IGGcontrol IGGwith0.1%Tween20
  • 11. Figure 8. Comparison of additives, NaCl, sucrose and glycine. In this experiment, the 0.2 M NaCl present in the previous experiments was replaced with 0.2 M sucrose or glycine by dialysis. This replacement resulted in substantial stabilization of IGG. It is not clear from this experiment whether removal of NaCl or addition of sucrose or glycine contributed to the observed stabilization. It was later demonstrated that the addition of NaCl increases aggregation of IGG upon heating (not shown). IGG1 in 19 mM phosphate buffer, pH 6.5. Native gel at pH 6.1. IGGwith0.2MNaCl IGGwith0.2MGlycineHeatedfor20minutes IGGwith0.2MSucrose IGGwith0.2MNaCl IGGwith0.2MGlycineHeatedfor40minutes IGGwith0.2MSucrose IGGwith0.2MNaCl IGGwith0.2MGlycineHeatedfor60minutes IGGwith0.2MSucrose IGGunheatedControl
  • 12. Figure 9. Effects of different buffers. In this experiment, 19 mM phosphate was replaced with other buffers: 19 mM histidine-HCl, pH 6.5; 19 mM citrate, pH 6.5; 19 mM Tris-HCl, pH 7.0; or 19 mM glycine, pH 6.0. These samples were heated at 75 !C for 60 min. Aggregation was significantly less in histidine, Tris or glycine. Native gel at pH 6.1. IGGin19mMNaphosphate,pH6.5 IGGin19mMHistidine-HCl,pH6.5 IGGin19mMCitrate,pH6.5 IGGin19mMTris-HCl,pH7.0 IGGin19mMGlycine,pH6.0 IGGin19mMNaphosphate,pH6.5 IGGin19mMHistidine-HCl,pH6.5 IGGin19mMCitrate,pH6.5 IGGin19mMTris-HCl,pH7.0 IGGin19mMGlycine,pH6.0 Unheated Control Heated for 60 minutes