Comparison of next generation sequencing (NGS) - (SNPs) and capillary electrophoresis (CE) - (STRs) in the genetic analysis of human remains.

A pilot study was performed using two different DNA technology platforms conducted by two laboratories to analyze DNA extracted from 83-year-old, human male skeletal remains from 16 individuals, of which there are no other viable means to identify these war victims. The workflow of the more recent developed ForenSeq Kintelligence Kit and next generation sequencing was compared to that of the standard capillary electrophoresis - short tandem repeat (STR) method (Power Plex ESX17 and Y23 Systems). The findings indicate that greater amount of useful genetic data can be gained with the Kintelligence system across the range of samples under study and particularly for samples in which partial or no STR profiles are obtained. SNP data are more likely to be obtained from degraded samples, like the ones analyzed in this study. Moreover, high volume SNP data are suitable for long distance kinship associations and genetic genealogy databases to develop more investigative leads for future kinship and missing persons cases, a process not feasible by STR typing.

Detection of Hemoglobin Constant Spring: A Comparison of Capillary Electrophoresis Versus High-Performance Liquid Chromatography.

INTRODUCTION: In Malaysia, Hemoglobin Constant Spring (Hb CS) is the most common non-deletional α-thalassemia, caused by a mutation at the termination codon of the α2-globin gene (TAA>CAA). Detection typically involves identifying an abnormal peak at zone 2 on capillary electrophoresis (CE) or a small peak at the C-window on high-performance liquid chromatography (HPLC), indicative of Hb CS. OBJECTIVE: This study aimed to investigate the correlation between HPLC and CE in detecting Hb CS, evaluating their respective diagnostic accuracies and limitations. METHODS: A cross-sectional study was conducted at Hospital Sultanah Nur Zahirah involving secondary school students (Form 4) from Terengganu who participated in a thalassemia screening program conducted by the Ministry of Health (MOH) from January 2019 to December 2022. Blood samples from subjects showing a positive peak in zone 2 of CE and a small peak at the C-window of HPLC were selected. Molecular studies of these samples were performed to confirm the presence of Hb CS. For the statistical analysis, the Pearson correlation coefficient was employed to assess the relationship between CE and HPLC results. RESULTS: Hb CS was confirmed in all samples by molecular studies, revealing 92.3% heterozygous, 7.2% compound heterozygous, and 0.5% homozygous cases. CE detected 92.3% of heterozygous Hb CS cases, while HPLC detected only 48.2%. For compound heterozygous Hb CS, CE detected 100%, whereas HPLC detected 89.3%. Both homozygous cases were detected by CE and HPLC. The Pearson correlation coefficient test showed a significant linear relationship (p<0.001) between CE's zone 2 peak values and HPLC's C-window peaks (n=389).  Conclusion: These findings highlight the efficacy of CE as a reliable method for Hb CS detection, suggesting its potential superiority over traditional HPLC in clinical settings.

Advancements in Multiple-Step On-Line Preconcentration Techniques for Enhanced Sensitivity in Capillary Electrophoresis.

Multiple-step on-line preconcentration, a combination of at least two stacking techniques has been developed to increase the sensitivity in capillary electrophoresis (CE) for analytes in various samples. It is usually conducted sequentially, or in some cases, synergistically, where different stacking modes occur simultaneously. Multiple-step techniques allow simultaneous preconcentration and separation of various kinds of analytes in different complex samples in a single CE run. This review aims to provide recent advances in multiple-step on-line preconcentration techniques in CE. We critically review technical papers published for the last 7 years up until July 2024, subsequently organized according to the combination of the main stacking techniques, that is, field amplification, large volume sample stacking, transient isotachophoresis, micelle to solvent or micelle to cyclodextrin stacking, and others. The procedures, fundamental mechanism, analytical figures of merits achieved, and their feasibility for complicated sample matrices are reviewed.

Stage-Specific Plasma Metabolomic Profiles in Colorectal Cancer.

Background/Objectives: The objective of this study was to investigate the metabolomic profiles of patients with colorectal cancer (CRC) across various stages of the disease. Methods: The plasma samples were obtained from 255 subjects, including patients with CRC in stages I-IV, polyps, and controls. We employed capillary electrophoresis time-of-flight mass spectrometry and liquid chromatography triple quadrupole mass spectrometry to analyze hydrophilic metabolites comprehensively. The data were randomly divided into two groups, and consistent differences observed in both groups were analyzed. Results: Acetylated polyamines, such as N1-acetylspermine and N1, N12-diacetylspermine, consistently showed elevated concentrations in stage IV compared to stages I-III. Non-acetylated polyamines, including spermine and spermidine, exhibited increasing trends from polyp to stage IV. Other metabolites, such as histidine and o-acetylcarnitine, showed decreasing trends across stages. While acetylated polyamines have been reported as CRC detection markers, our findings suggest that they also possess diagnostic potential for distinguishing stage IV from other stages. Conclusions: This study showed stage-specific changes in metabolic profiles, including polyamines, of colorectal cancer.

Intra- and inter-day variations in oral metabolites from mouth-rinsed water determined using capillary electrophoresis-mass spectrometry metabolomics.

BACKGROUND AND AIMS: Collecting clinical samples without inconveniencing participants is desirable. The profile of metabolites in mouth-rinsed water is similar to that in saliva. However, the intra- and inter-day variations in unstimulated or stimulated saliva metabolites from mouth-rinsed water have yet to be clarified. Thus, we aimed to fill this research gap using capillary electrophoresis-mass spectrometry metabolomics. MATERIALS AND METHODS: We collected mouth-rinsed water from 15 healthy participants at 9:00, 11:30, 14:00, and 16:30 daily for 3 days. In total, 509 metabolite concentrations from 180 samples were obtained using capillary electrophoresis time-of-flight mass spectrometry. Variations in each metabolite were evaluated using the Wilcoxon signed-rank test to determine at which time/day significant differences occurred after removing metabolites without significant changes using the Friedman test. RESULTS: Of 167 frequently detected metabolites, 100 exhibited intra-day variations, and none exhibited inter-day variations. Intra-day variations were classified into four patterns, and the intra-day variation in each metabolite was assessed. The variations may reflect elapsed time after meals, oral cleaning, or circadian rhythms. CONCLUSION: This study could serve as a reference for improving the design of future clinical trials and the accuracy of metabolome analysis of mouth-rinsed water samples collected at different dates and times.

Assessment of adeno-associated virus purity by capillary electrophoresis-based western.

A rigorous analytical assessment of recombinant adeno-associated virus (rAAV)-based drug products is critical for their successful development as clinical candidates. It is especially important to ascertain high purity while simultaneously ensuring low levels of impurities in the final drug product. One approach to evaluate the purity of rAAV drug products is to determine the relative stoichiometry of the three viral proteins (VPs) that comprise an rAAV capsid, and the levels of impurities in the final drug product. Here we present two capillary electrophoresis-western (CE-western) assays for quantifying (1) the relative stoichiometry of VP using the anti-AAV B1 antibody, and (2) residual levels of a baculovirus protein impurity, GP64, using the anti-GP64 antibody. In each assay, various purified samples from diverse AAV serotypes were analyzed to determine their VP ratio or GP64 levels. The ratio of VP3/VP1 in rAAV samples was correlated with biological activity, and the clearance of GP64 from the manufacturing process was demonstrated. The results obtained from both assays were further supported by liquid chromatography-mass spectrometry analyses. Overall, we report that CE-western is a high-throughput platform that utilizes low sample volumes for a rapid, sensitive, and robust assessment of the identity, composition, and purity of rAAV drug products.

Identification and analgesic activity study of analgesic protein â ¦-2 from Naja naja atra venom.

Background: Acid-sensing ion channel 1a (ASIC1a) plays a critical role in physiological and pathological processes. To further elucidate the biological functions of ASICs and their relationships with disease occurrence and development, it is advantageous to investigate and develop additional regulatory factors for ASICs. Methods: In this study, cation exchange chromatography was used to separate seven chromatographic components from Naja naja atra venom. Capillary electrophoresis was employed to detect that Ⅶ peak component containing a main protein Ⅶ-2, which could bind to ASIC1a. The analgesic effects of Ⅶ-2 protein were determined using hot plate methods, and ASIC1a expression in spinal cord tissue from rats with inflammatory pain was detected using western blot. Results: The purified Ⅶ-2 protein named Naja naja atra venom-Ⅶ-2 (NNAV-Ⅶ-2) was obtained by Sephadex G-50 gel filtration, which exhibited a single band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with a molecular weight of 6.7 kD. Remarkably, the NNAV-Ⅶ-2 protein demonstrated a significant analgesic effect and downregulated ASIC1a expression in the spinal cord tissue of rats with inflammatory pain. Conclusions: The analgesic mechanism of the NNAV-Ⅶ-2 protein may be associated with its binding to ASIC1a, consequently downregulating ASIC1a expression in neural tissues.

Charge variant analysis of monoclonal antibodies by CZE-MS using a successive multiple ionic-polymer layer coating based on diethylaminoethyl-dextran.

The characterization of the impurities of pharmaceutical monoclonal antibodies (mAbs) is crucial for their function and safety. Capillary zone electrophoresis (CZE) is one of the most efficient tools to separate charge variants of mAbs; however, peak characterization remains difficult, since the hereby used background electrolytes (BGEs) are not compatible with electrospray ionization-mass spectrometry (ESI-MS). Here, a method that allows the separation of intact mAb charge variants is presented using CZE-ESI-MS, combining a cationic capillary coating and an acidic BGE. Therefore, a successive multiple ionic-polymer layer coating was developed based on diethylaminoethyl-dextran-poly(sodium styrene sulfonate). This coating leads to a relatively low reversed electroosmotic flow (EOF) with an absolute mobility slightly higher than that of antibodies, enabling the separation of variants with slightly different mobilities. The potential of the coating is demonstrated using USP mAb003, where it was possible to separate C-terminal lysine variants from the main form, as well as several acidic variants and monoglycosylated mAb forms. The presented CZE-MS method can be applied to separate charge variants of a range of other antibodies such as infliximab, NISTmAB (Reference Material from the National Institute of Standards and Technology), adalimumab, and trastuzumab, demonstrating the general applicability for the separation of proteoforms of mAbs.

Interactions of electrophoretically silent hemoglobin Hekinan II [HBA1:c.84G>T] with various forms of α-thalassemias and other hemoglobinopathies: novel insights into the molecular and hematological characteristics and genetic origins.

To determine the molecular basis, genotype - phenotype relationship, and genetic origin of Hemoglobin (Hb) Hekinan associated with several forms of α-thalassemia and other hemoglobinopathies for a better understanding of its diverse clinical phenotypes. Seventeen participants with suspected abnormal Hb were studied. Hb analysis was performed using high-performance liquid chromatography (HPLC) and capillary electrophoresis (CE). Mutational and α-haplotypic and structural analyses were conducted, and the effects of mutations on globin-chain stability were determined. All participants harbored Hb Hekinan II (HBA1:c.84 G>T) co-inherited with another α-globin gene anomaly. Three novel genotypes, (ααHekinan/αCSα), (ααHekinan/αCSα,ßA/ßE), and (ααHekinan/αCSα,ßE/ßE), were characterized. Despite being co-inherited with both α- and ß-Hb variants Hb Hekinan II led to minimal changes in erythrocyte parameters, suggesting a non-pathological nature. HPLC but not CE revealed a distinct small shoulder-like Hb pattern. Thai Hb Hekinan II was strongly associated with haplotype [+ - S + - - -] and the possibility of four different haplotypes, while two Burmese Hb Hekinan II were associated with haplotypes [± - S + - + -] and [± - S + - - -]. The novel genotypes identified provide a fresh perspective on Hb Hekinan II diversity. HPLC has superior identification capabilities for samples of Hb Hekinan II co-inherited with α-thalassemia. Thai and Burmese Hb Hekinan II have diverse origins.

Really the best of both? Application of an mRNA/miRNA multiplex assay to casework samples, animal samples, and a storage study.

The identification of body fluids is an important area of forensic genetics. In particular, the susceptibility to degradation of casework samples is of crucial importance, as the traces can often be exposed to different environmental conditions over a long period of time. RNAs especially are used as molecular markers for the identification of body fluids in forensics. Messenger RNAs (mRNAs) show an increased susceptibility to degradation, e.g. under humidity and UV radiation but are highly body fluid-specific. The shorter micro RNAs (miRNAs), however, are less susceptible to degradation, but only a few body fluid-specific markers could be investigated. In this study, a self-developed mRNA/miRNA multiplex assay for capillary electrophoresis from a preliminary study was further adapted and validated. The approach was applied to casework samples, animal samples, and a storage study. The advantages and disadvantages of the mRNA/miRNA assay were investigated in order to review a possible application for forensic casework. Some miRNA markers were also detected in animal samples, which once again underlines the possible non-specificity of miRNAs. In the storage study, the different markers were detected for different lengths of time depending on the body fluid examined. For almost all body fluids, the miRNA markers were still detectable after a period of 35 days under environmental conditions compared to the mRNA markers. The mRNA peaks were often already clearly reduced or no longer detectable after 14 days. The results show the advantage of the new mRNA/miRNA assay compared to established mRNA approaches, especially for older and degraded samples, but the assay has its limitations due to the limited number of specific miRNA markers.

Screening thrombin inhibitors from Yangxinshi tablets by online capillary electrophoresis-based immobilized enzyme microreactor and molecular docking.

INTRODUCTION: Yangxinshi tablet (YXST) is a effective traditional Chinese medicine in treating cardiovascular diseases such as heart failure and myocardial infarction. OBJECTIVES: This study aims to develop a method for screening thrombin inhibitors from YXST using an online immobilized enzyme microreactor (IMER) based on capillary electrophoresis (CE). MATERIALS AND METHODS: Thrombin (THR) was immobilized on the capillary's inner wall using polydopamine (PDA). The chromogenic substrate S-2238 was employed to assess thrombin (THR) activity and kinetic parameters. The stability and repeatability of the constructed thrombin-immobilized enzyme microreactor (THR-IMER) were evaluated over 40 runs, maintaining 85% of initial activity. The Michaelis-Menten constant (Km) for THR was determined to be 11.98 mM. The half-maximal inhibitory concentration (IC50) and inhibition constant (Ki) for argatroban on THR were calculated. Ten compounds in YXST were screened for THR inhibitory potency using the THR-IMER. RESULTS: Salvianolic acid B and caffeic acid were identified as potential THR inhibitors in YXST, with inhibition rates at 200 µg/mL of 55.06 ± 6.70% and 31.88 ± 4.79%, respectively, aligning with microplate reader assay results. Molecular docking analysis confirmed their interactions with key THR residues, verifying their inhibitory activity. CONCLUSION: The CE-based THR-IMER method was successfully developed for screening thrombin inhibitors from YXST, offering a reliable approach for identifying potential therapeutic compounds.

Establishment and evaluation of a rapid method for the detection of bacterial pneumonia in hospitalized patients via multiplex PCR-capillary electrophoresis (MPCE).

Cost-effective molecular diagnostic techniques for bacterial pneumonia are limited. We designed primers for 13 bacteria, performed multiplex nucleic acid detection through fragment analysis to obtain pathogen identification results, and established a multiplex PCR-capillary electrophoresis (MPCE) method, which can simultaneously detect 13 pathogens associated with bacterial pneumonia. The sensitivity, specificity, and reproducibility of the MPCE assay were tested, and 420 clinical samples were used to assess the clinical detection ability of MPCE, with the culture method used as a reference. Samples with inconsistent results detected by the two methods were sent for Sanger sequencing. The minimum detection limit of MPCE for 13 bacteria was 6.0 × 103 cfu/mL~2.0 × 106 cfu/mL. No cross-reactivity was observed with other pathogens. The percentage of agreement for reproducibility analysis reached 100%. For the 420 sputum samples, when the culture method was used as the reference, the sensitivity of MPCE to 13 bacteria ranged from 80% to 100%. The specificity for 13 bacteria ranged from 67.1% to 100%. The percentage of agreement between the MPCE and the culture method ranged from 69.7% to 100%. There was no statistically significant difference (P > 0.05) in the detection of Escherichia coli, Enterobacter cloacae complex, Staphylococcus aureus, methicillin-resistant S. aureus, Streptococcus pyogenes, Moraxella catarrhalis, or Legionella pneumophila between the MPCE and the culture method. Clinical samples with negative cultures but positive MPCE results were validated by Sanger sequencing, and the results were consistent with those of MPCE. The MPCE method has high sensitivity and specificity for bacterial pneumonia, enabling the simultaneous and rapid detection of multiple pathogens. It is cost-effective and has potential for clinical application. IMPORTANCE: This study successfully established a multiplex PCR-capillary electrophoresis detection system that can simultaneously detect 13 pathogens through a single detection method, significantly improving clinical efficiency. It is cost-effective and has potential for clinical application.

Molecular modeling study to unravel complexation of daclatasvir and its enantiomer by ß-cyclodextrins. Computational analysis using quantum mechanics and molecular dynamics.

A computational study was performed to unravel mechanisms underlying capillary electrophoresis enantioseparations of daclatasvir and its (R,R,R,R)-enantiomer with native and methylated ß-cyclodextrins (ß-CDs) as chiral selectors. Considering the enantioseparation results as benchmark, the structures of ß-CD and seven methylated ß-CDs were optimized by quantum mechanics, and their topography and computed molecular properties were compared. Furthermore, the electron charge density distribution of the macrocycles was also evaluated by calculating the molecular electrostatic potential of pivotal regions of native and methylated ß-CDs. The function of hydrogen bonds in the complexation process of daclatasvir and the CDs was derived from quantum mechanics analysis and confirmed by molecular dynamics, as orthogonal computational techniques. The presence of a round-shaped cavity in the CDs used as chiral selector appeared as a necessary requirement for the enantioseparation of daclatasvir and its (R,R,R,R)-enantiomer. In this regard, it was confirmed that the round shape of the CDs is sustained by hydrogen bonds formed between adjacent glucopyranose units and blocking rotation of the linking glycosidic bonds. The presence of hydroxy groups at the 6-position of the glucopyranose units and the concurrent absence of hydroxy groups at the 2-position were evidenced as important factors for enantioseparation of daclatasvir and its enantiomer by methylated ß-CDs.

A multiplex microbial profiling system for the identification of the source of body fluid and skin samples.

Determining the source of body fluids is crucial in forensic investigations, as it provides valuable information about suspects and the nature of the crime. Microbial markers that trace the source of tissues and body fluids based on site specificity and temporal stability are often used effectively for this purpose. In this study, a multiplex system comprising seven microbial markers (Finegoldia magna, Corynebacterium tuberculostearicum, Cutibacterium acnes, Haemophilus parainfluenzae, Streptococcus oralis, Prevotella melaninogenica and Faecalibacterium prausnitzii) was developed to distinguish between skin, saliva, and feces samples. Based on these markers, the system produces electropherograms that are specific for each sample type. We collected 492 samples from six different skin sites (palm, antecubital crease, inguinal crease, cheek, upper back, and toe web space), the buccal mucosa, and stool were collected to further test the system. Beta diversity analysis revealed distinct clustering among the three sample groups. Additionally, skin microenvironment cluster analysis was used to identify skin sites accurately. This analysis classified skin samples into four distinct microenvironments: dry, moist, oily, and foot. Finally, we established a machine learning prediction model based on random forest regression to identify the skin microenvironment, achieving an overall prediction accuracy of 79 %. The multiplex system developed in this study accurately identifies the sources of body fluids, and the skin microenvironment. These findings offer new insights into the application of microbial markers in forensic science.

Discordance of Penta D x.4 microvariant alleles results between three capillary electrophoresis and one massively parallel sequencing short tandem repeat kits.

Forensic Biology is contingent upon matching DNA profiles between a crime sample and a reference sample. There are several capillary electrophoresis kits available to generate a short tandem repeat (STR) profile from DNA samples, while newer methods using massively parallel sequencing are slowly being implemented in forensic laboratories worldwide. During evaluation of a newer capillary electrophoresis kit, Applied Biosystems™ VeriFiler™ Plus, a discordance was observed in the Penta D locus. The previous kit, Promega PowerPlex 21® System produced a 13.4,14 genotype, whilst VeriFiler™ Plus produced a 14,14 genotype. An expanded investigation into Penta D microvariant alleles revealed that multiple discordances were observed for DNA profiles containing larger x.4 variants. There was full concordance between PowerPlex® 21 and QIAGEN Investigator® 26plex, however discordances were observed between VeriFiler™ Plus and the other three kits tested, including the massively parallel sequencing kit, Verogen ForenSeq® MainstAY. Notably, four of these discordances resulted in null alleles with the VeriFiler™ Plus kit. A review of the Penta D DNA sequences in MainstAY revealed fully concordant microvariant alleles involved deletions within the repeat region, whilst variability in the discordances observed were dependent on the location of the variation outside the repeat region and the analysis method used. Variations observed within the 5' flanking region produced the same allele designation across all capillary electrophoresis kits. However, deletions within the 3' region either produced a null allele for VeriFiler™ Plus where the deletion is thought to overlap the primer binding site, or microvariant alleles for the PowerPlex® 21 and Investigator 26plex kits, which produced longer Penta D amplicons. The discovery of these variations in the Penta D flanking sequences is informative as it increases the awareness of Penta D discordances between different kit chemistries in nominated reference DNA profile comparisons and DNA database searching and matching alike, and provides support for this phenomenon when providing evidence as to the admissibility of such results in trial proceedings.

Miniaturized nanoelectrospray interface for coupling capillary electrophoresis with mass spectrometry detection.

A miniaturized electrospray interface consisting of a microfluidic nanosprayer and nanospray module is reported in the presented short communication. The nanosprayer was fabricated using silicon (Si) technology suitable for cost-efficient high-volume mass production. The nanospray module enabled the positioning of the nanosprayer in front of a mass spectrometry entrance and its coupling with capillary electrophoresis based on the liquid junction principle. A case study of top-down and bottom-up proteomic analyses of intact cytochrome c and its tryptic digest demonstrates the practical applicability of the developed interface.

Current green capillary electrophoresis and liquid chromatography methods for analysis of pharmaceutical and biomedical samples (2019-2023) - A review.

Separation analytical methods, including liquid chromatography (LC) and capillary electrophoresis (CE), in combination with an appropriate detection technique, are dominant and powerful approaches preferred in the analysis of pharmaceutical and biomedical samples. Recent trends in analytical methods are focused on activities that push them to the field of greenness and sustainability. New approaches based on the implementation of greener solvents, non-hazardous chemicals, and reagents have grown exponentially. Similarly, recent trends are pushed in to the strategies based on miniaturization, reduction of wastes, avoiding derivatization procedures, or reduction of energy consumption. However, the real greenness of the analytical method can be evaluated only according to an objective and sufficient metric offering complex results taking into account all twelve rules of green analytical chemistry (SIGNIFICANCE mnemonic system). This review provides an extensive overview of papers published in the area of development of green LC and CE methods in the field of pharmaceutical and biomedical analysis over the last 5 years (2019-2023). The main focus is situated on the metrics used for greenness evaluation of the methods applied for the determination of bioactive agents. It critically evaluates and compares the demands of the real applicability of the methods in quality control and clinical environment with the requirements of the green analytical chemistry (GAC). Greenness and practicality of the summarized methods are re-evaluated or newly evaluated with the use of the dominant metrics tools, i.e., Analytical GREEnness (AGREE), Green Analytical Procedure Index (GAPI), Blue Applicability Grade Index (BAGI), and Sample Preparation Metric of Sustainability (SPMS). Moreover, general conclusions and future perspectives of the greening procedures and greenness evaluation metrics systems are presented. This paper should provide comprehensive information to analytical chemists, biochemists, and it can also represent a valuable source of information for clinicians, biomedical or quality control laboratories interested in development of analytical methods based on greenness, practicality, and sustainability.

Development of a CZE-MS/MS method with dynamic pH junction sample pretreatment for analysis of kratom psychoactive alkaloids in urine.

BACKGROUND: Kratom is a herbal substance belonging to the group of new psychoactive substances. It contains psychoactive indole alkaloids mitragynine and 7-hydroxymitragynine. At low doses, they act as psychostimulants and at higher doses they mediate an opioid-like effect. The increasing misuse of kratom requires the development of analytical methods that will accurately and reliably identify and quantify its psychoactive alkaloids in biological samples. Therefore, the development of effective, precise, and reliable green analytical methods that are easy to implement in practice is of great importance. On-line combination of capillary zone electrophoresis with tandem mass spectrometry (CZE-MS/MS) seems to be a promising solution. RESULTS: We present a novel green approach based on capillary zone electrophoresis - tandem mass spectrometry (CZE-MS/MS) method with on-line dynamic pH junction sample pretreatment to identify and determine mitragynine and 7-hydroxymitragynine in urine samples. The separation was performed in a background electrolyte composed of 100 mM formic acid (pH 2.39). The dynamic pH junction was ensured by injection of a short plug of 12.5 % NH4OH before the sample. Under optimal conditions, the developed method was validated and parameters such as linearity (r2 > 0.99), precision (2.2-8.7 %), accuracy (89.2-102.5 %) or stability of the sample (86.6-114.7 %) met the defined FDA guideline criteria (%RSD and %RE values where within ±15 %). Introduction of a simple in-capillary preconcentration strategy based on dynamic pH junction enabled significant improvement in analytical signal intensity and also the applicability of the method. Applying the presented approach, high sensitivity was achieved as indicated by limit of detection values, which were 0.5 ng mL-1 and 2 ng mL-1 for mitragynine and 7-hydroxymitragynine, respectively. Greenness of the proposed approach was confirmed by the AGREE metrics (score 0.63). The application potential of the developed method was successfully verified using blinded urine model samples. SIGNIFICANCE: For the first time a fully validated CZE-MS/MS method for kratom alkaloids determination was introduced. The presented novel method is a cheaper and more ecological alternative to conventionally used chromatographic techniques what was clearly confirmed by its greenness evaluation and comparison with previously published liquid chromatography (LC) approaches. In-capillary sample pretreatment (dynamic pH junction) has been demonstrated to be an effective and fast tool in bioanalysis, minimizing the number of pretreatment steps and the manipulation with the sample. Moreover, LOD values comparable to those obtained by LC methods were recorded. High potential for the implementation of this approach into the toxicology environment in the near future is expected.

Determination of amino acids and peptides without their pre-column derivatization by capillary electrophoresis with ultraviolet and contactless conductivity detection. An overview.

This review provides an overview of recent works focusing on the determination of amino acids (AAs) and peptides using capillary electrophoresis with contactless conductivity detection and ultraviolet (UV) detection, which is the most widespread detection in capillary electromigration techniques, without pre-capillary derivatization. Available options for the UV detection of these analytes, such as indirect detection, complexation with transition metal ions, and in-capillary derivatization are described. Developments in the field of direct detection of UV-absorbing AAs and peptides as well as progress in chiral separation are described. A separate section is dedicated to using on-line sample preconcentration methods combined with capillary electrophoresis-UV.

Capillary Electrophoresis-Laser Induced Fluorescence Method Development and Validation for Quantification of Nine Gangliosides-Application to Analysis of Cell Lines of CNS Origin.

Gangliosides are sialic acid-containing glycosphingolipids that play an essential role in many biological and pathophysiological processes. They are present in high amounts in the central nervous system and their abnormal metabolism or expression has been observed in many diseases. We have developed and validated a sensitive capillary electrophoresis laser-induced fluorescence (CE-LIF) method for the separation and quantification of oligosaccharides digested from nine gangliosides of high biological relevance. APTS was used for the labeling of the glycans. Reverse polarity CE was performed for the separation of the labeled glycans bearing negative charges. The optimized background electrolyte is a 15 mM lithium acetate buffer with pH of 5 containing 5% w/v linear polyacrylamide, which allows for the separation of all nine gangliosides. Validation parameters including linearity, precision, and accuracy were evaluated. LOQ and LOD were in the nM range, comparable to those of LC-MS techniques. The method was used to identify and quantify the ganglioside pattern of glioblastoma and neuroblastoma cell lines. The presented method is a valuable tool for further investigations aiming at understanding the role of gangliosides in various neurological diseases or CNS tumors.