Comparison of Radiomics Analyses Based on Different Magnetic Resonance Imaging Sequences in Grading and Molecular Genomic Typing of Glioma

Comparison of Radiomics Analyses Based on Different Magnetic Resonance Imaging Sequences in Grading and Molecular Genomic Typing of Glioma
To analyze the worth of radiomics analyses based mostly on completely different magnetic resonance (MR) sequences within the noninvasive analysis of glioma traits for the differentiation of low-grade glioma versus high-grade glioma, isocitrate dehydrogenase (IDH)1 mutation versus IDH1 wild-type, and mutation standing and 6-methylguanine-DNA methyltransferase (MGMT) promoter methylation (+) versus MGMT promoter methylation (-) glioma. The outcomes exhibit that state-of-the-art radiomics evaluation strategies based mostly on multiparametric MR picture knowledge and radiomics options can considerably contribute to pretreatment glioma grading and molecular subtype classification.
 Fifty-nine sufferers with untreated glioma who underwent a typical 3T-MR tumor protocol had been included within the research. A complete of 396 radiomics options had been extracted from the MR photos, with the manually delineated tumor as the quantity of curiosity. Medical imaging diagnostic options (tumor location, necrosis/cyst change, crossing midline, and the diploma of enhancement or peritumoral edema) had been analyzed by univariate logistic regression to pick out unbiased scientific elements. Radiomics and mixed clinical-radiomics fashions had been established for grading and molecular genomic typing of glioma by a number of logistic regression and cross-validation.
 The radiomics mannequin based mostly on T1-CE carried out higher than fashions based mostly on different sequences in predicting the tumor grade and the IDH1 standing of the glioma. The radiomics mannequin based mostly on T2 carried out higher than fashions based mostly on different sequences in predicting the MGMT methylation standing of glioma. Solely the T1 mixed clinical-radiomics mannequin confirmed improved prediction efficiency in predicting tumor grade and the IDH1 standing. The efficiency of the fashions based mostly on completely different sequences was evaluated by utilizing receiver working attribute curves, nomograms, and resolution curves.

Genomic alterations in thymoma-molecular pathogenesis?

Thymomas and thymic carcinomas (TCs) are neoplasms of thymic epithelial cells. Thymomas exhibit a low mutational burden and some recurrently mutated genes. Probably the most frequent missense mutation p.(Leu404His) impacts the final transcription issue IIi (GTF2I) and is restricted for thymic epithelial tumors (TETs). The clinically indolent varieties A and AB thymomas categorical the miRNA cluster C19MC. This miRNA cluster recognized to be the biggest within the human genome, is-with expression in any other case restricted largely to embryonal tissue-silenced within the extra aggressive kind B thymomas and TCs.

Thymomas related to the autoimmune illness myasthenia gravis (MG) exhibit extra frequent gene copy quantity modifications and an elevated expression of proteins homologous to molecules which are targets for autoantibodies. TCs, nonetheless, show the next mutational burden, with frequent mutations of TP53 and epigenetic regulatory genes and lack of CDKN2A. The information of molecular alterations in TETs fosters the understanding of their pathogenesis and supplies steering for additional research which will result in the event of focused therapies.

Oral leukoplakia (OLK) and its extra aggressive scientific variant proliferative verrucous leukoplakia (PVL) stay enigmatic problems clinically and histopathologically. Regardless of many years of analysis into each, there was solely incremental development in our understanding of their aetiology and pathogenesis and solely minimal enchancment in efficient administration methods. At the moment, no particular prognostic genetic or molecular marker has been reported for leukoplakia. There’s, nonetheless, an rising physique of proof characterising the genomic and transcriptomic profile of OLK. Whatever the significance of mobile and architectural options of OLK and PVL, it’s clear from research reported on this assessment that new rising proof factors to the presence of premalignant molecular subtypes of leukoplakia which require additional investigation.

This up-to-date assessment explores the up to date genomic, transcriptomic and mutational panorama of leukoplakia broadly, discusses ideas that will not be broadly recognised or accepted and purposefully highlights research with juxtaposed findings in an effort to problem dogma. We herein assessment the histological, genetic, and epigenetic landscapes of benign and malignant adrenal cortical neoplasia from a contemporary surgical endocrine pathology perspective and spotlight key mechanisms of worth for diagnostic and prognostic functions.

Comparison of Radiomics Analyses Based on Different Magnetic Resonance Imaging Sequences in Grading and Molecular Genomic Typing of Glioma

Identification of genomic variations between the sexes and sex-specific molecular markers in Monostroma angicava (Ulvophyceae)

There’s little info accessible concerning genomic variations between sexes in ulvophycean inexperienced algae. The detection of those variations will allow the event of sex-discriminating molecular markers, that are helpful for algae displaying little obvious distinction between sexes. On this research, we recognized male- and female-specific DNA sequences within the ulvophycean marine inexperienced alga Monostroma angicava, which has a dioicous heteromorphic haplo-diplontic life cycle, through next-generation sequencing.

Fluorescence in situ hybridization (FISH) confirmed that indicators for the sex-specific sequences exist solely within the nuclei of the corresponding intercourse, confirming the specificity of the sequences. Intercourse-specific molecular markers that focused these sequences efficiently distinguished the intercourse of gametophytes even in geographically distant populations, indicating that the sex-specific sequences are common. These outcomes constantly recommend that female and male gametophytes of M. angicava are genetically completely different, implying that intercourse could also be decided genetically on this alga.

Triton X-100

GD6826-500ML 500 ml
EUR 55

Triton X-100

GD6826-5L 5 l
EUR 142

Triton X-100

abx082488-100ml 100 ml
EUR 175
  • Shipped within 5-10 working days.

Triton X-100

abx082515-100ml 100 ml
EUR 189
  • Shipped within 5-10 working days.

Triton X-100

TB0198 500ml
EUR 65.08
  • Product category: Biochemicals/Detergents/Surfactants

Triton® X-100 Detergent

B2394-100
EUR 109

100 mM Triton X-100

603 100 ml
EUR 98

TritonX-100 (Molecular Biology Grade)

CE240 500 ml
EUR 56

TritonX-100 (Molecular Biology Grade)

CE241 1 l
EUR 66

Triton® X-100 Detergent

B2394-1L
EUR 262

Triton® X-100 Detergent

B2394-500
EUR 196

Triton X-100, T-Octylphenoxypolyethoxyethanol

CH061 1L (2 x 500ml)
EUR 120

Triton X-100, T-Octylphenoxypolyethoxyethanol

CH062 4.0 L
EUR 160

Triton® X-100, MegaPure? Detergent, 10% Solution

2124-100
EUR 191

Triton® X-100 Solution (10% in H?O)

2104-100
EUR 137

Urea, suitable for molecular biology

GE1210-1KG 1 kg
EUR 89

Urea, suitable for molecular biology

GE1210-500G 500 g
EUR 64

Tween 20, Molecular Biology Grade

T9100-100 1L
EUR 134

Triton X-100, 10% solution in water

GC7458-100ML 100 ml
EUR 46

Triton X-100, 10% solution in water

GC7458-1L 1 l
EUR 94

Triton X-100, 10% solution in water

GC7458-250ML 250 ml
EUR 58

Triton X-100, 10% solution in water

GC7458-500ML 500 ml
EUR 70

Sucrose, GlenBiol, suitable for molecular biology

GC3201-1KG 1 kg
EUR 75

Triton® X-100, MegaPure? Detergent, 10% Solution

2124-1000 Ask for price

Triton® X-100, MegaPure? Detergent, 10% Solution

2124-50
EUR 137

Triton® X-100, MegaPure? Detergent, 10% Solution

2124-500
EUR 686

Triton® X-100, MegaPure? Detergent, 10% Solution

2124-set
EUR 175

Agarose LE, Ultra-Pure Molecular Biology Grade, 100 g

41028-100G 100G
EUR 222
Description: Minimum order quantity: 1 unit of 100G

Triton X-114

TDB0554 500ml
EUR 65.44
  • Product category: Biochemicals/Detergents/Surfactants

Triton X-405

TS4449 100ml
EUR 71.75
  • Product category: Biochemicals/Detergents/Surfactants

BCIP (Molecular Biology Grade)

CE108 250 mg
EUR 63

BCIP (Molecular Biology Grade)

CE109 1 g
EUR 90

CHAPS (Molecular Biology Grade)

CE114 1 g
EUR 55

CHAPS (Molecular Biology Grade)

CE115 5 g
EUR 131

CHAPS (Molecular Biology Grade)

CE116 25 g
EUR 410

DAPI (Molecular Biology Grade)

CE117 5 mg
EUR 60

DAPI (Molecular Biology Grade)

CE118 25 mg
EUR 133

DAPI (Molecular Biology Grade)

CE119 100 mg
EUR 319

Dimethylsulfoxide (Molecular Biology Grade)

CE120 100 ml
EUR 55

Dimethylsulfoxide (Molecular Biology Grade)

CE121 500 ml
EUR 92

DTT (Molecular Biology Grade)

CE131 5 g
EUR 78

DTT (Molecular Biology Grade)

CE132 10 g
EUR 111

DTT (Molecular Biology Grade)

CE133 25 g
EUR 203

Glycine (Molecular Biology Grade)

CE158 1 kg
EUR 70

Glycine (Molecular Biology Grade)

CE159 5 kg
EUR 190

HEPES (Molecular Biology Grade)

CE171 100 g
EUR 82

HEPES (Molecular Biology Grade)

CE172 500 g
EUR 224

HEPES (Molecular Biology Grade)

CE173 1 kg
EUR 354

Lysozyme (Molecular Biology Grade)

CE188 1 g
EUR 59

Lysozyme (Molecular Biology Grade)

CE189 10 g
EUR 206

NAD (Molecular Biology Grade)

CE196 1 g
EUR 60

NAD (Molecular Biology Grade)

CE197 5 g
EUR 138

NBT (Molecular Biology Grade)

CE209 1 g
EUR 103

NBT (Molecular Biology Grade)

CE210 5 g
EUR 300

Tris (Molecular Biology Grade)

CE237 500 g
EUR 89

Tris (Molecular Biology Grade)

CE238 1 kg
EUR 128

Tris (Molecular Biology Grade)

CE239 5 kg
EUR 446

Tween20 (Molecular Biology Grade)

CE242 1 l
EUR 89

Water (Molecular Biology Grade)

CE243 500 ml
EUR 52

Water (Molecular Biology Grade)

CE244 1 l
EUR 56

Ammonium sulfate (Molecular Biology Grade)

CE105 250 g
EUR 46

Ammonium sulfate (Molecular Biology Grade)

CE106 1 kg
EUR 60

Ammonium sulfate (Molecular Biology Grade)

CE107 5 kg
EUR 128

Bis-Acrylamid (Molecular Biology Grade)

CE110 50 g
EUR 79

Bis-Acrylamid (Molecular Biology Grade)

CE111 250 g
EUR 216

Formamide deionized (Molecular Biology Grade)

CE145 500 ml
EUR 73

Formamide deionized (Molecular Biology Grade)

CE146 1 l
EUR 100

Glycerol 87 % (Molecular Biology Grade)

CE154 1 l
EUR 78

Glycerol waterfree (Molecular Biology Grade)

CE155 500 ml
EUR 65

Glycerol waterfree (Molecular Biology Grade)

CE156 1 l
EUR 85

Glycerol waterfree (Molecular Biology Grade)

CE157 2.5 l
EUR 142

Guanidine - Hydrochloride (Molecular Biology Grade)

CE160 100 g
EUR 78

Guanidine - Hydrochloride (Molecular Biology Grade)

CE161 250 g
EUR 128

Guanidine - Hydrochloride (Molecular Biology Grade)

CE162 500 g
EUR 194

Guanidine - Hydrochloride (Molecular Biology Grade)

CE163 1 kg
EUR 294

Guanidine Thiocyanate (Molecular Biology Grade)

CE164 100 g
EUR 72

Guanidine Thiocyanate (Molecular Biology Grade)

CE165 500 g
EUR 160

Guanidine Thiocyanate (Molecular Biology Grade)

CE166 1 kg
EUR 256

Urea Crystalline (Molecular Biology Grade)

CE167 1 kg
EUR 60

Urea Crystalline (Molecular Biology Grade)

CE168 5 kg
EUR 151

MOPS buffer (Molecular Biology Grade)

CE194 100 g
EUR 85

MOPS buffer (Molecular Biology Grade)

CE195 250 g
EUR 141

Sodium chloride (Molecular Biology Grade)

CE205 500 g
EUR 52

Sodium chloride (Molecular Biology Grade)

CE206 1 kg
EUR 59

Sodium chloride (Molecular Biology Grade)

CE207 5 kg
EUR 103

D(+)-Sucrose (Molecular Biology Grade)

CE224 500 g
EUR 56

D(+)-Sucrose (Molecular Biology Grade)

CE225 1 kg
EUR 70

D(+)-Sucrose (Molecular Biology Grade)

CE226 5 kg
EUR 173

Tris - Hydrochloride (Molecular Biology Grade)

CE234 250 g
EUR 83

Tris - Hydrochloride (Molecular Biology Grade)

CE235 500 g
EUR 120

Tris - Hydrochloride (Molecular Biology Grade)

CE236 1 kg
EUR 186

Water, Ultrapure Molecular Biology Grade

41024-4L 4L
EUR 121
Description: Minimum order quantity: 1 unit of 4L

Tween 20, Molecular Biology Grade

T9100-010 100ml
EUR 72

Tween 20, Molecular Biology Grade

T9100-050 500ml
EUR 111

Water, distilled, GlenBiol™, suitable for molecular biology

GK8512-1L 1 l
EUR 77

Agarose, low EEO, GlenBiol, suitable for molecular biology

GE6258-100G 100 g
EUR 181

Phenol, (Carbolic acid) Double distilled for Molecular Biology

PD0252 500g
EUR 160.49
  • Product category: Biochemicals/Misc. Biochemicals

5xRIPA Buffer IV with Triton-X-100 (pH 7.4) 5xconcentrate

RB4478 500ml
EUR 71.75
  • Product category: Biochemicals/Biological Buffers/Protein Related

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE135 250 g
EUR 60

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE136 500 g
EUR 72

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE137 1 kg
EUR 104

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE138 5 kg
EUR 349

D(+)-Glucose waterfree (Molecular Biology Grade)

CE148 500 g
EUR 56

D(+)-Glucose waterfree (Molecular Biology Grade)

CE149 1 kg
EUR 63

D(+)-Glucose waterfree (Molecular Biology Grade)

CE150 5 kg
EUR 150

Yeast extract powder (Molecular Biology Grade)

CE169 500 g
EUR 111

Hyaluronidase Grade I (Molecular Biology Grade)

CE174 1 g
EUR 194

Hyaluronidase Grade I (Molecular Biology Grade)

CE175 5 g
EUR 767

Magnesium acetate - Tetrahydrate (Molecular Biology Grade)

CE190 500 g
EUR 82

NADH - Disodium salt (Molecular Biology Grade)

CE198 1 g
EUR 76

NADH - Disodium salt (Molecular Biology Grade)

CE199 5 g
EUR 204

NADP - sodium salt (Molecular Biology Grade)

CE200 250 mg
EUR 77

NADP - sodium salt (Molecular Biology Grade)

CE201 1 g
EUR 159

NADPH - Tetrasodium salt (Molecular Biology Grade)

CE202 25 mg
EUR 59

NADPH - Tetrasodium salt (Molecular Biology Grade)

CE204 500 mg
EUR 312

SSC Buffer (20X) (Molecular Biology Grade)

CE229 1 l
EUR 72

XTT sodium salt (Molecular Biology Grade)

CE250 100 mg
EUR 174

XTT sodium salt (Molecular Biology Grade)

CE251 500 mg
EUR 510

AGAROSE LE, LOW EEO, MOLECULAR BIOLOGY GRADE, 100G PER UNIT

AGR-LE-100 1/pk
EUR 168
Description: Bioscience Mol Bio; Agarose

100 ML, MOLECULAR BIOLOGY GRADE WATER; TESTED TO USP STERILE PURIFIED WATER SPECIFICATIONS

46-000-CI 100 mL/pk
EUR 57
Description: Media Catalog; Sterile Wi-Fi Qual, Cell

Triton Extraction Buffer(TEB), for Histon Extraction

T8300-100 100ml
EUR 126

Triton® X-114, MegaPure? Detergent, 10% Solution, Sterile-Filtered

2137-100
EUR 191

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE100 50 g
EUR 107

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE101 100 g
EUR 161

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE102 250 g
EUR 323

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE103 500 g
EUR 547

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE104 1 kg
EUR 969

Triton ® X-114 (10%) Solution

B1015-500
EUR 185

EDTA solution pH 8.0 (0.5 M) (Molecular Biology Grade)

CE141 500 ml
EUR 73

LB-Agar - Powder according to Lennox (Molecular Biology Grade)

CE178 500 g
EUR 91

LB-Agar - Powder according to Lennox (Molecular Biology Grade)

CE179 2.5 kg
EUR 251

LB-Agar - Powder according to Miller (Molecular Biology Grade)

CE180 500 g
EUR 87

LB-Agar - Powder according to Miller (Molecular Biology Grade)

CE181 2.5 kg
EUR 246

Major pulmonary lymphoepithelioma-like carcinoma (pLELC) is a uncommon non-small cell lung most cancers (NSCLC) subtype. Medical options have been described in our earlier report, however molecular traits stay unclear. Herein, pLELC genomic options had been explored. Amongst 41,574 lung cancers, 128 pLELCs and 162 non-pLELC NSCLCs had been enrolled. Programmed cell demise ligand 1 (PD-L1) and protein 53 (p53) expression was detected in 47 surgically resected pLELC samples by immunohistochemical assays. Multiomics genomic analyses, together with whole-genome sequencing (WGS), RNA whole-transcriptome sequencing (RNA-seq), and Epstein-Barr virus (EBV) integration analyses, had been carried out on eight frozen pLELC tissues and in contrast with 50 lung adenocarcinomas (LUADs) and 50 lung squamous cell carcinomas (LUSCs) from The Most cancers Genome Atlas (TCGA) and one other 26 EBV-positive nasopharynx cancers (EBV+-NPCs).

Molecular Classification and Tumor Microenvironment Characterization of Gallbladder Cancer by Comprehensive Genomic and Transcriptomic Analysis

Molecular Classification and Tumor Microenvironment Characterization of Gallbladder Cancer by Comprehensive Genomic and Transcriptomic Analysis

Gallbladder most cancers (GBC), a uncommon however deadly illness, is commonly identified at superior phases. To date, molecular characterization of GBC is inadequate, and a complete molecular portrait is warranted to uncover new targets and classify GBC. We carried out a transcriptome evaluation of each coding and non-coding RNAs from 36 GBC fresh-frozen samples. The outcomes had been built-in with these of complete mutation profiling primarily based on whole-genome or exome sequencing. The clustering evaluation of RNA-seq information facilitated the classification of GBCs into two subclasses, characterised by excessive or low expression ranges of TME (tumor microenvironment) genes. A correlation was noticed between gene expression and pathological immunostaining. TME-rich tumors confirmed considerably poor prognosis and better recurrence charge than TME-poor tumors.

TME-rich tumors confirmed overexpression of genes concerned in epithelial-to-mesenchymal transition (EMT) and irritation or immune suppression, which was validated by immunostaining. One non-coding RNA, miR125B1, exhibited elevated expression in stroma-rich tumors, and miR125B1 knockout in GBC cell traces decreased its invasion means and altered the EMT pathway. Mutation profiles revealed TP53 (47%) as probably the most generally mutated gene, adopted by ELF3 (13%) and ARID1A (11%). Mutations of ARID1AERBB3, and the genes associated to the TGF-β signaling pathway had been enriched in TME-rich tumors. This complete evaluation demonstrated that TME, EMT, and TGF-β pathway alterations are the principle drivers of GBC and gives a brand new classification of GBCs that could be helpful for therapeutic decision-making.

Major cutaneous follicle middle lymphomas (PCFCLs) are indolent B-cell lymphomas that predominantly stay pores and skin restricted and manageable with skin-directed remedy. Conversely, secondary cutaneous involvement by common systemic follicular lymphoma (secondary cutaneous follicular lymphoma [SCFL]) has a worse prognosis and infrequently necessitates systemic remedy. Sadly, no histopathologic or genetic options reliably differentiate PCFCL from SCFL at analysis. Imaging could miss low-burden inner illness in some instances of SCFLs, resulting in misclassification as PCFCL. Whereas common systemic FL is properly characterised genetically, the genomic landscapes of PCFCL and SCFL are unknown. Herein, we analyzed clinicopathologic and immunophenotypic information from 30 instances of PCFCL and 10 of SCFL and carried out whole-exome sequencing on 18 specimens of PCFCL and 6 of SCFL. Throughout a median follow-up of seven years, 26 (87%) of the PCFCLs remained pores and skin restricted.

What Did We Study from the Molecular Biology of Adrenal Cortical Neoplasia? From Histopathology to Translational Genomics

Roughly one-tenth of the final inhabitants exhibit adrenal cortical nodules, and the incidence has elevated. Troubled sufferers show a multifaceted symptomatology-sometimes with relatively spectacular options. Given the final infrequency in addition to the particular scientific, histological, and molecular concerns characterizing these lesions, adrenal cortical tumors must be investigated by endocrine pathologists in high-volume tertiary facilities. Even so, to tell apart particular types of benign adrenal cortical lesions in addition to to pinpoint malignant instances with the best danger of poor consequence is commonly difficult utilizing typical histology alone, and molecular genetics and translational biomarkers are due to this fact gaining elevated consideration as a attainable discriminator on this context.

On the whole, our understanding of adrenal cortical tumorigenesis has elevated tremendously the final decade, not least because of the improvement of next-generation sequencing methods. Complete analyses have helped set up the hyperlink between benign aldosterone-producing adrenal cortical proliferations and ion channel mutations, in addition to mutations within the protein kinase A (PKA) signaling pathway coupled to cortisol-producing adrenal cortical lesions. Furthermore, molecular classifications of adrenal cortical tumors have facilitated the excellence of benign from malignant varieties, in addition to the prognostication of the person sufferers with verified adrenal cortical carcinoma, enabling high-resolution diagnostics that’s not completely attainable by histology alone.

Subsequently, combos of histology, immunohistochemistry, and next-generation multi-omic analyses are all wanted in an built-in trend to correctly distinguish malignancy in some instances. Regardless of vital progress made within the subject, present scientific and pathological challenges embrace the preoperative distinction of non-metastatic low-grade adrenal cortical carcinoma confined to the adrenal gland, adoption of individualized therapeutic algorithms aligned with molecular and histopathologic danger stratification instruments, and histological affirmation of useful adrenal cortical illness within the context of multifocal adrenal cortical proliferations.

Molecular Classification and Tumor Microenvironment Characterization of Gallbladder Cancer by Comprehensive Genomic and Transcriptomic Analysis

Molecular and Structural Characterizations of Lipases from Chlorella by Useful Genomics

Microalgae have been poorly investigated for new-lipolytic enzymes of biotechnological curiosity. In silico examine combining evaluation of sequences homologies and bioinformatic instruments allowed the identification and preliminary characterization of 14 putative lipases expressed by Chlorella vulagaris. These proteins have totally different molecular weights, subcellular localizations, low instability index vary and no less than 40% of sequence id with different microalgal lipases. Sequence comparability indicated that the catalytic triad corresponded to residues Ser, Asp and His, with the nucleophilic residue Ser positioned throughout the consensus GXSXG pentapeptide.

Guanidine - Hydrochloride (Molecular Biology Grade)

CE162 500 g
EUR 194

Guanidine - Hydrochloride (Molecular Biology Grade)

CE163 1 kg
EUR 294

Guanidine Thiocyanate (Molecular Biology Grade)

CE164 100 g
EUR 72

Guanidine Thiocyanate (Molecular Biology Grade)

CE165 500 g
EUR 160

Guanidine Thiocyanate (Molecular Biology Grade)

CE166 1 kg
EUR 256

Tris - Hydrochloride (Molecular Biology Grade)

CE234 250 g
EUR 83

Tris - Hydrochloride (Molecular Biology Grade)

CE235 500 g
EUR 120

Tris - Hydrochloride (Molecular Biology Grade)

CE236 1 kg
EUR 186

Guanidine (hydrochloride)

HY-B0178A 50g
EUR 133

Guanidine hydrochloride

GB0242 100g
EUR 67.4
  • Product category: Biochemicals/Biology Reagents/Protein Related

Urea, suitable for molecular biology

GE1210-1KG 1 kg
EUR 89

Urea, suitable for molecular biology

GE1210-500G 500 g
EUR 64

Guanidine hydrochloride, 99%

GE1914-100G 100 g
EUR 46

Guanidine hydrochloride, 99%

GE1914-1KG 1 kg
EUR 110

Guanidine hydrochloride, 99%

GE1914-250G 250 g
EUR 54

Guanidine hydrochloride, 99%

GE1914-25G 25 g
EUR 42

Guanidine hydrochloride, 99%

GE1914-500G 500 g
EUR 74

Sucrose, GlenBiol, suitable for molecular biology

GC3201-1KG 1 kg
EUR 75

BCIP (Molecular Biology Grade)

CE108 250 mg
EUR 63

BCIP (Molecular Biology Grade)

CE109 1 g
EUR 90

CHAPS (Molecular Biology Grade)

CE114 1 g
EUR 55

CHAPS (Molecular Biology Grade)

CE115 5 g
EUR 131

CHAPS (Molecular Biology Grade)

CE116 25 g
EUR 410

DAPI (Molecular Biology Grade)

CE117 5 mg
EUR 60

DAPI (Molecular Biology Grade)

CE118 25 mg
EUR 133

DAPI (Molecular Biology Grade)

CE119 100 mg
EUR 319

Dimethylsulfoxide (Molecular Biology Grade)

CE120 100 ml
EUR 55

Dimethylsulfoxide (Molecular Biology Grade)

CE121 500 ml
EUR 92

DTT (Molecular Biology Grade)

CE131 5 g
EUR 78

DTT (Molecular Biology Grade)

CE132 10 g
EUR 111

DTT (Molecular Biology Grade)

CE133 25 g
EUR 203

Glycine (Molecular Biology Grade)

CE158 1 kg
EUR 70

Glycine (Molecular Biology Grade)

CE159 5 kg
EUR 190

HEPES (Molecular Biology Grade)

CE171 100 g
EUR 82

HEPES (Molecular Biology Grade)

CE172 500 g
EUR 224

HEPES (Molecular Biology Grade)

CE173 1 kg
EUR 354

Lysozyme (Molecular Biology Grade)

CE188 1 g
EUR 59

Lysozyme (Molecular Biology Grade)

CE189 10 g
EUR 206

NAD (Molecular Biology Grade)

CE196 1 g
EUR 60

NAD (Molecular Biology Grade)

CE197 5 g
EUR 138

NBT (Molecular Biology Grade)

CE209 1 g
EUR 103

NBT (Molecular Biology Grade)

CE210 5 g
EUR 300

Tris (Molecular Biology Grade)

CE237 500 g
EUR 89

Tris (Molecular Biology Grade)

CE238 1 kg
EUR 128

Tris (Molecular Biology Grade)

CE239 5 kg
EUR 446

Tween20 (Molecular Biology Grade)

CE242 1 l
EUR 89

Water (Molecular Biology Grade)

CE243 500 ml
EUR 52

Water (Molecular Biology Grade)

CE244 1 l
EUR 56

Ammonium sulfate (Molecular Biology Grade)

CE105 250 g
EUR 46

Ammonium sulfate (Molecular Biology Grade)

CE106 1 kg
EUR 60

Ammonium sulfate (Molecular Biology Grade)

CE107 5 kg
EUR 128

Bis-Acrylamid (Molecular Biology Grade)

CE110 50 g
EUR 79

Bis-Acrylamid (Molecular Biology Grade)

CE111 250 g
EUR 216

Formamide deionized (Molecular Biology Grade)

CE145 500 ml
EUR 73

Formamide deionized (Molecular Biology Grade)

CE146 1 l
EUR 100

Glycerol 87 % (Molecular Biology Grade)

CE154 1 l
EUR 78

Glycerol waterfree (Molecular Biology Grade)

CE155 500 ml
EUR 65

Glycerol waterfree (Molecular Biology Grade)

CE156 1 l
EUR 85

Glycerol waterfree (Molecular Biology Grade)

CE157 2.5 l
EUR 142

Urea Crystalline (Molecular Biology Grade)

CE167 1 kg
EUR 60

Urea Crystalline (Molecular Biology Grade)

CE168 5 kg
EUR 151

MOPS buffer (Molecular Biology Grade)

CE194 100 g
EUR 85

MOPS buffer (Molecular Biology Grade)

CE195 250 g
EUR 141

Sodium chloride (Molecular Biology Grade)

CE205 500 g
EUR 52

Sodium chloride (Molecular Biology Grade)

CE206 1 kg
EUR 59

Sodium chloride (Molecular Biology Grade)

CE207 5 kg
EUR 103

D(+)-Sucrose (Molecular Biology Grade)

CE224 500 g
EUR 56

D(+)-Sucrose (Molecular Biology Grade)

CE225 1 kg
EUR 70

D(+)-Sucrose (Molecular Biology Grade)

CE226 5 kg
EUR 173

TritonX-100 (Molecular Biology Grade)

CE240 500 ml
EUR 56

TritonX-100 (Molecular Biology Grade)

CE241 1 l
EUR 66

Water, Ultrapure Molecular Biology Grade

41024-4L 4L
EUR 121
Description: Minimum order quantity: 1 unit of 4L

Tween 20, Molecular Biology Grade

T9100-010 100ml
EUR 72

Tween 20, Molecular Biology Grade

T9100-050 500ml
EUR 111

Tween 20, Molecular Biology Grade

T9100-100 1L
EUR 134

Water, distilled, GlenBiol™, suitable for molecular biology

GK8512-1L 1 l
EUR 77

Agarose, low EEO, GlenBiol, suitable for molecular biology

GE6258-100G 100 g
EUR 181

Phenol, (Carbolic acid) Double distilled for Molecular Biology

PD0252 500g
EUR 160.49
  • Product category: Biochemicals/Misc. Biochemicals

Guanidine hydrochloride (6 M) solution

B1013-1L
EUR 251

Guanidine hydrochloride (6 M) solution

B1013-4L
EUR 588

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE135 250 g
EUR 60

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE136 500 g
EUR 72

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE137 1 kg
EUR 104

EDTA - Dinatriumsalz - Dihydrat (Molecular Biology Grade)

CE138 5 kg
EUR 349

D(+)-Glucose waterfree (Molecular Biology Grade)

CE148 500 g
EUR 56

D(+)-Glucose waterfree (Molecular Biology Grade)

CE149 1 kg
EUR 63

D(+)-Glucose waterfree (Molecular Biology Grade)

CE150 5 kg
EUR 150

Yeast extract powder (Molecular Biology Grade)

CE169 500 g
EUR 111

Hyaluronidase Grade I (Molecular Biology Grade)

CE174 1 g
EUR 194

Hyaluronidase Grade I (Molecular Biology Grade)

CE175 5 g
EUR 767

Magnesium acetate - Tetrahydrate (Molecular Biology Grade)

CE190 500 g
EUR 82

NADH - Disodium salt (Molecular Biology Grade)

CE198 1 g
EUR 76

NADH - Disodium salt (Molecular Biology Grade)

CE199 5 g
EUR 204

NADP - sodium salt (Molecular Biology Grade)

CE200 250 mg
EUR 77

NADP - sodium salt (Molecular Biology Grade)

CE201 1 g
EUR 159

NADPH - Tetrasodium salt (Molecular Biology Grade)

CE202 25 mg
EUR 59

NADPH - Tetrasodium salt (Molecular Biology Grade)

CE204 500 mg
EUR 312

SSC Buffer (20X) (Molecular Biology Grade)

CE229 1 l
EUR 72

XTT sodium salt (Molecular Biology Grade)

CE250 100 mg
EUR 174

XTT sodium salt (Molecular Biology Grade)

CE251 500 mg
EUR 510

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE100 50 g
EUR 107

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE101 100 g
EUR 161

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE102 250 g
EUR 323

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE103 500 g
EUR 547

Albumin fraction V (pH7,0) (Molecular Biology Grade)

CE104 1 kg
EUR 969

EDTA solution pH 8.0 (0.5 M) (Molecular Biology Grade)

CE141 500 ml
EUR 73

LB-Agar - Powder according to Lennox (Molecular Biology Grade)

CE178 500 g
EUR 91

LB-Agar - Powder according to Lennox (Molecular Biology Grade)

CE179 2.5 kg
EUR 251

LB-Agar - Powder according to Miller (Molecular Biology Grade)

CE180 500 g
EUR 87

LB-Agar - Powder according to Miller (Molecular Biology Grade)

CE181 2.5 kg
EUR 246

LB-Medium - Powder according to Lennox (Molecular Biology Grade)

CE182 500 g
EUR 90

LB-Medium - Powder according to Lennox (Molecular Biology Grade)

CE183 2.5 kg
EUR 251

LB-Medium - Powder according to Miller (Molecular Biology Grade)

CE184 2.5 kg
EUR 246

Agarose LE, Ultra-Pure Molecular Biology Grade, 100 g

41028-100G 100G
EUR 222
Description: Minimum order quantity: 1 unit of 100G

Agarose LE, Ultra-Pure Molecular Biology Grade, 25 g

41028-25G 25G
EUR 109
Description: Minimum order quantity: 1 unit of 25G

Agarose LE, Ultra-Pure Molecular Biology Grade, 500 g

41028-500G 500G
EUR 719
Description: Minimum order quantity: 1 unit of 500G

Guanidine HCl

B1949-5.1 10 mM (in 1mL DMSO)
EUR 108
Description: Guanidine HCl, the crystalline compound of strong alkalinity formed by the oxidation of guanine, is a normal product of protein metabolism and a protein denaturant.

Guanidine HCl

B1949-50 50 mg
EUR 128
Description: Guanidine HCl, the crystalline compound of strong alkalinity formed by the oxidation of guanine, is a normal product of protein metabolism and a protein denaturant.

Guanidine thiocyanate

GE1694-100G 100 g
EUR 49

Guanidine thiocyanate

GE1694-1KG 1 kg
EUR 110

Guanidine thiocyanate

GE1694-250G 250 g
EUR 61

Guanidine thiocyanate

GE1694-500G 500 g
EUR 78

3D fashions had been generated utilizing totally different approaches and templates and demonstrated that these putative enzymes share an identical core with widespread α/β hydrolases fold belonging to household three lipases and sophistication GX. Six lipases had been predicted to have a transmembrane area and a lysosomal acid lipase was recognized. An analogous mammalian enzyme performs an necessary position in breaking down cholesteryl esters and triglycerides and its deficiency causes critical digestive issues in human. Extra structural perception would supply necessary data on the enzyme traits.