Servicebio Tissue Homogenizer Low-temperature (-40℃)
상품 옵션 정보 | |||||||
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카탈로그 번호 | 설명 | 상태 | 단위 | 판매가 | 할인가 | 가격(VAT포함) | 수량 / 장바구니 / 찜 |
KZ-III-FP | Servicebio KZ-III-FP Tissue Homogenizer (-40℃) 다양한 로터 장착 가능 pk | 재고문의 | pk | 13,600,000원 | - | 14,960,000원 |
다른 상품 둘러보기
Product IntroductionKZ-Ⅲ-FPLow temperature tissue homogenizer (-40℃) can reach a low temperature environment of -40 °C. It uses a vertical oscillation system to reciprocate at high speed to make the frozen sample in the grinding tube collide with the grinding beads. The tissue is completely broken, and it is a special equipment for one-time rapid processing of multiple samples in research institutes, universities, agricultural institutes, biomedicine, food testing and other fields.
Traditional mortar grinding can only grind one sample at a time, and the processing efficiency is low; and tools such as the mortar must be cleaned and sterilized each time, which greatly increases the workload of sample processing.
Low Temperature Homogenizer Sample Grinding -40℃ can greatly improve sample processing:
1. Dry grinding, wet grinding and homogenization of samples can be performed;
2. It can process up to 24 samples at the same time (upgradable to process 60 samples at the same time), and complete the sample preparation in a fast and high-throughput manner;
3. Can be replaced with different capacity adapters 0.5ml, 2ml, 5ml, 10ml, 50ml;
4. Wide range of samples that can be processed:
a. Suitable for grinding and crushing of various plant tissues including roots, stems, leaves, flowers, fruits, seeds and other samples;
b. Suitable for grinding and crushing of various animal tissues including brain, heart, lung, stomach, liver, thymus, kidney, intestine, lymph node, muscle, bone and other samples;
c. Grinding and crushing suitable for the analysis and detection of food and drug components;
5. A closed disposable centrifuge tube is used, which can effectively avoid cross-contamination between samples;
6. The experiment has strong repeatability, and the same grinding frequency and time can be set to obtain the same grinding effect;
7. Refrigeration function: -40℃ to room temperature; Temperature control accuracy: ±1℃.
Product Features
1. Slider drive, no wear shaft, noise stability and durability;
2. Minimum refrigeration temperature -40 ℃, the whole process of low-temperature grinding, reduce protein and RNA degradation;
3. Up to 60 samples can be processed simultaneously in 1 min (24 samples come standard);
4. A variety of adapters to choose from.
Technical Parameters
1. It can process up to 24 samples at the same time in 1 minute (upgrade to process 60 samples at the same time), and complete the sample grinding quickly, efficiently and with high throughput;
2. Large touch screen design, easy to operate, and 10 groups of common tissue grinding parameters (plant stem and leaf, tissue heart, liver, spleen, lung and kidney, skin, bone, etc.) are preset to optimize the grinding conditions of different specimens;
3. Noise level: <65db;
4. Maximum feed size: no requirement, adjusted according to the adapter;
5. Emergency stop button: It can be photographed at any time during the grinding process, and the instrument will stop running, which is fast and safe;
6. Rapid cooling: cool down to below zero in a short time after starting to prevent degradation, temperature range: -40°C - room temperature;
7. Electromagnetic safety lock: the electromagnetic lock cannot open the cover during the working process, until the end of the grinding process, and the whole process is protected;
8. Grinding method: wet grinding, dry grinding, low temperature grinding;
9. Provide no less than 60 SCI cited papers as experimental guidance
10. Using a special three-dimensional vibration mode of up and down and left and right shaking, the grinding is more sufficient and the stability is better;
10. An optional 60-hole adapter can be installed, which can be upgraded to grind 60 samples each time, further improving the grinding efficiency.
11. Different adapters can be selected to match different requirements for sample grinding: 24*0.5ml; 48*2ml; 32*2ml; 60*2ml; 12*5ml; 10*10ml; 4*30ml; 2*50ml (also according to Customized according to actual needs)
12. Dimensions: 500*365*370mm
Parameter Setting and Grinding Bead Reference
1) Protein Extraction
Product Name | Grinding Beads | Frequency | Grinding Time | Pause Time | Cycle times | Recommended** Extraction Solution** |
Plant Stems, Leaves | Stainless Steel Beads 3mm*3, 4mm*1 | 60Hz | 60s | 15s | 3 | Protein Extraction Solution |
Heart, Liver, Spleen, Lungs, Kidneys, Brain of Mice and Rats | Stainless Steel Beads 3mm*2, 4mm*1 | 60Hz | 30s | 15s | 2 | Protein Extraction Solution |
Stomach, Intestines, Muscles, Fat, Pancreas of Mice and Rats | Stainless Steel Beads 3mm*2, 4mm*1 | 60Hz | 45s | 15s | 2 | Protein Extraction Solution |
Skin, Ears, Tail, Blood Vessels of Mice and Rats | Stainless Steel Beads 3mm*3, 4mm*2 | 70Hz | 60s | 20s | 3 | Protein Extraction Solution |
Cartilage, Hair, Hard Bones of Mice and Rats | Stainless Steel Beads 3mm*4, 4mm*2 | 70Hz | 90s | 20s | 3 | Protein Extraction Solution |
(This condition is for reference only, and can be adjusted at any time during the experiment according to the grinding effect.) |
2) RNA Extraction
Product Name | Grinding Beads | Frequency | Grinding Time | Pause Time | Cycle times | Recommended Extraction Solution |
Plant Stems, Leaves | Zirconia Beads 3mm*3, 4mm*1 | 60Hz | 60s | 15s | 3 | RNA Extraction Solution |
Heart, Liver, Spleen, Lungs, Kidneys, Brain of Mice and Rats | Zirconia Beads Beads 3mm*2, 4mm*1 | 60Hz | 30s | 15s | 2 | RNA Extraction Solution |
Stomach, Intestines, Muscles, Fat, Pancreas of Mice and Rats | Zirconia Beads Beads 3mm*3, 4mm*2 | 60Hz | 45s | 15s | 2 | RNA Extraction Solution |
Skin, Ears, Tail, Blood Vessels of Mice and Rats | Zirconia Beads Beads 3mm*4, 4mm*2 | 70Hz | 60s | 20s | 3 | RNA Extraction Solution |
Cartilage, Hair, Hard Bones of Mice and Rats | Zirconia Beads Beads 3mm*3, 4mm*4 | 70Hz | 90s | 20s | 3 | RNA Extraction Solution |
(This condition is for reference only, and can be adjusted at any time during the experiment according to the grinding effect.) |
For RNA extraction, the grinding time is extended compared with that of protein extraction, and RNA extraction solution is added to the grinding, the specific grinding time depends on the amount and type of tissue to be ground. Samples difficult to break can be repeated grinding 2-3 times, the specific situation can be adjusted appropriately according to the experiment.
Strong and Tough Tissue Grinding
For samples that are difficult to grind (e.g. cartilage, hair, etc.), we recommend using a 2mL grinding tube. Cut the sample into 1-2mm pieces, add the appropriate number of grinding beads, cover the tube tightly and freeze in liquid nitrogen for 2-3min without extracting solution, dry grind for 60 seconds at 70Hz, then add extracting solution to the tube and repeat the grinding once. If the grinding result is not satisfactory, the tube can be frozen again and the above experimental steps can be repeated.
Bone Tissue Grinding
For bone tissue, use the special steel grinding jar and adapter. The bone tissue is first frozen in liquid nitrogen for 5-10min, then put into the grinding jar, add the steel beads, and grind for 180 seconds at 70Hz (set cycle grinding). After grinding, take out the finished tissue, put it into a 2mL grinding tube, add the extraction solution, two 3mm grinding beads and homogenize for 60 seconds.
Parameters Comparison
Cat. No. | KZ-III | KZ-III-F/FP | KZ-5F-3D | SWE-FP |
Operating mode | Vertical oscillation system with high-speed reciprocating motion | Vertical oscillation system with high-speed reciprocating motion | Presents a 3D ∞ shaped motion in space |
Vertical oscillation system with high-speed reciprocating motion |
Temperature | Room temperature | -10℃/-40℃ | -40℃ | -50℃ |
Temperature control precision | N/A | ±1℃ | ±1℃ | ±1℃ |
Standard spec. | 24*2 mL | 24*2 mL | 24*2 mL | 24*2 mL |
Maximum sample volume | 60 pcs | 60 pcs | 24 pcs | 192 pcs |
Adapter specification | 0.5 mL×24; 2 mL×24; 2 mL×24; 2 mL×32; 2 mL×48; 2 mL×48; 2 mL×60; 5 mL×12; 10 mL×10; steel can 5mL×6; steel can 15 mL×8; steel can 30 mL×4; steel can 50 mL×2; PTFE 30mL×4; PTFE 50 mL×2 | 3D 2mL×24; 3D 5mL×12 (Special Adapter Models) | 0.5 mL×24; 2 mL×24; 2 mL×24; 2 mL×32; 2 mL×48; 2 mL×48; 2 mL×60; 5 mL×12; 10 mL×10; steel can 5mL×6; steel can 15 mL×8; steel can 30 mL×4; steel can 50 mL×2; PTFE 30mL×4; PTFE 50 mL×2; 2 mL×96; 96-well Plate×2 | |
Freezing table | N/A | N/A | N/A | YES |
Adapter fixing method | Nut | Nut | Knob cover with safety locking device | Nut |
Working time | Run time 0-9999 s; Pause time 0-999 s; Number of runs 1-99 | |||
Dimensions | 365*265*396mm | 370×365×500 mm | 650*420*430mm | |
Screen size | 5 inches | 5 inches | 5 inches | 5 inches |
Emergency stop button | YES | YES | YES | YES |
Electromagnetic safety lock | Screen click control with automatic power-off unlocking. the cover cannot be opened during operation until the grinding program ends, fully protected. | |||
Maximum feeding size | No requirements, adjustable according to the adapter. | |||
Weight | 30.7 kg | 45 kg | 52 kg | 54 kg |
Power parameters | 200-240V AC,50-60 Hz, 200 W |
200-240V AC,50-60 Hz, 400 W |
200-240V AC,50-60 Hz, 400 W |
200-240V AC,50-60 Hz,500 W |
Cooling method | Low temperature pre-cooling: adapter can reach -80℃or liquid nitrogen pre-cooling | Compressor cooling | Compressor cooling | Compressor cooling |
Transport screws | Yes (2 at the bottom) | Yes (2 at the bottom) | N/A | Yes (2 at the bottom) |
Advantages | Small size, cost-effective | Compatible with various adapter specifications. Freezing function, lowest temperature can reach -40℃. |
Higher grinding efficiency, reducing tissue degradation.Freezing function, lowest temperature can reach -40℃. | Lower cooling temperature can reach -50℃. low temperature freezing table, Protects samples and meets low-temperature needs for Western Blot experiments, electrophoresis, and transfer membranes. |
Classification of related products
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Homogenizer
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Servicebio is one of the leading manufacturer in China providing FDA & CE approved lab supplies and lab services.
Wang, L., et al.Hierarchical helical carbon nanotube fibre as a bone-integrating anterior cruciate ligament replacement.Nature Nanotechnology(2023).PMID 37142709IF 38.3
PMID:37142709
Pu, Y., et al.GOLM1 restricts colitis and colon tumorigenesis by ensuring Notch signaling equilibrium in intestinal homeostasis.Signal Transduction and Targeted Therapy6(1),p. 148(2021).PMID 33850109IF 38.104
PMID:33850109
Qi, Y., et al.A Lactose-Derived CRISPR/Cas9 Delivery System for Efficient Genome Editing In Vivo to Treat Orthotopic Hepatocellular Carcinoma.Advanced Science7(17),p. 2001424(2020).PMID 32995132IF 17.521
PMID:32995132
Pang, Z., et al.Multifunctional gold nanoclusters for effective targeting, near-infrared fluorescence imaging, diagnosis, and treatment of cancer lymphatic metastasis.ACS Nano16,16019-16037(2022).PMID 36130729IF 17.1
PMID:36130729
Wang, M., et al.DNA-PK inhibition by M3814 enhances chemosensitivity in non-small cell lung cancer.Acta Pharmaceutica Sinica B11(12),p. 3935-3949(2021).PMID 35024317IF 14.903
PMID:35024317
Pan, X., et al.SWD1 epigenetically chords fungal morphogenesis, aflatoxin biosynthesis, metabolism, and virulence of Aspergillus flavus.J Hazard Mater455,131542(2023).PMID 37172387IF 13.6
PMID:37172387
Yin, H., et al.Short-term exposure to high relative humidity increases blood urea and influences colonic urea-nitrogen metabolism by altering the gut microbiota.Journal of Advanced Research35,p. 153-168(2022).PMID 35003799IF 12.822
PMID:35003799
Gong, H.-Y., et al.Transcriptional regulation of Glis2 in hepatic fibrosis.Experimental & Molecular Medicine1-17(2023).PMID 37394585IF 12.8
PMID:37394585
Wan, J., et al.Balancing the stability and drug activation in adaptive nanoparticles potentiates chemotherapy in multidrug-resistant cancer.Theranostics11(9),p. 4137-4154(2021).PMID 33754053IF 11.6
PMID:33754053
Zheng, J., et al.Epigenetically silenced lncRNA SNAI3-AS1 promotes ferroptosis in glioma via perturbing the m6A-dependent recognition of Nrf2 mRNA mediated by SND1.Journal of Experimental & Clinical Cancer Research42,1-20(2023).PMID 37202791IF 11.3
PMID:37202791
Sun, Y., et al.A Novel Strategy for Treating Inflammatory Bowel Disease by Targeting Delivery of Methotrexate through Glucan Particles.Advanced Healthcare Materials9(6),p. 1901805(2020).PMID 32092235IF 11.092
PMID:32092235
Zhou, B.-h., et al.Drp1/Mff signaling pathway is involved in fluoride-induced abnormal fission of hepatocyte mitochondria in mice.Science of The Total Environment725,p. 138192(2020).PMID 32278173IF 10.753
PMID:32278173
Li, Y.-J., et al.Gemcitabine loaded autologous exosomes for effective and safe chemotherapy of pancreatic cancer.Acta Biomaterialia101,p. 519-530(2020).PMID 31629893IF 10.633
PMID:31629893
Tang, K., et al.Elevated MMP10/13 mediated barrier disruption and NF-κB activation aggravate colitis and colon tumorigenesis in both individual or full miR-148/152 family knockout mice.Cancer Letters529,53-69(2022).PMID 34979166IF 9.7
PMID:34979166
Dong, J., et al.Inhibiting NLRP3 inflammasome activation prevents copper-induced neuropathology in a murine model of Wilson’s disease.Cell Death & Disease12(1),p. 87(2021).PMID 33462188IF 9.685
PMID:33462188
Yue, X., et al.Intermittent hypoxia treatment alleviates memory impairment in the 6-month-old APPswe/PS1dE9 mice and reduces amyloid beta accumulation and inflammation in the brain.Alzheimers Research & Therapy13(1),p. 194(2021).PMID 34844651IF 8.823
PMID:34844651
Ye, L., et al.Inhibition of IP3R/Ca2+ Dysregulation Protects Mice From Ventilator-Induced Lung Injury via Endoplasmic Reticulum and Mitochondrial Pathways.Frontiers in immunology12,p. 729094-729094(2021).PMID 34603302IF 8.786
PMID:34603302
Zheng, H., et al.Hydroxychloroquine Inhibits Macrophage Activation and Attenuates Renal Fibrosis After Ischemia-Reperfusion Injury.Frontiers in immunology12,p. 645100-645100(2021).PMID 33936063IF 8.786
PMID:33936063
Sun, R., et al.Ultra-small-size Astragaloside-IV loaded lipid nanocapsules eye drops for the effective management of dry age-related macular degeneration.Expert Opinion on Drug Delivery17(9),p. 1305-1320(2020).PMID 32538226IF 8.129
PMID:32538226
Li, J., et al.The anti-obesity effects exerted by different fractions of Artemisia sphaerocephala Krasch polysaccharide in diet-induced obese mice.International Journal of Biological Macromolecules182,p. 825-837(2021).PMID 33864863IF 8.025
PMID:33864863
Li, G., et al.Osteocytic Connexin43 Channels Regulate Bone–Muscle Crosstalk.Cells10(2),(2021).PMID 33530465IF 7.666
PMID:33530465
Wang, M., et al.The nephroprotective effects and mechanisms of rehmapicrogenin include ROS inhibition via an oestrogen-like pathway both in vivo and in vitro.Biomed Pharmacother138,111305(2021).PMID 33820633IF 7.5
PMID:33820633
Liang, Y.-y., et al.Salvia plebeia R. Br. polysaccharides (SPP) against RSV (respiratory syncytial virus) infection: Antiviral effect and mechanisms of action.Biomedicine & Pharmacotherapy141,p. 111843(2021).PMID 34175821IF 7.419
PMID:34175821
Wu, Q., et al.Long non-coding RNA SNHG1 promotes fibroblast-to-myofibroblast transition during the development of pulmonary fibrosis induced by silica particles exposure.Ecotoxicology and Environmental Safety228,p. 112938(2021).PMID 34741930IF 7.129
PMID:34741930
Zhao, Q., et al.Bone marrow-derived mesenchymal stem cells attenuate silica-induced pulmonary fibrosis by inhibiting apoptosis and pyroptosis but not autophagy in rats.Ecotoxicology and Environmental Safety216,p. 112181(2021).PMID 33848736IF 7.129
PMID:33848736
Wu, J., et al.TNF-α contributes to sarcopenia through caspase-8/caspase-3/GSDME-mediated pyroptosis.Cell Death Discovery9,76(2023).PMID 36823174IF 7
PMID:36823174
Yin, Z., et al.Development of A Neonatal Mouse Model for Coxsackievirus B1 Antiviral Evaluation.Virologica Sinica36(6),p. 1575-1584(2021).PMID 34581960IF 6.947
PMID:34581960
Sun, P., et al.Lactational exposure to Deoxynivalenol causes mammary gland injury via inducing inflammatory response and impairing blood-milk barrier integrity in mice.Ecotoxicology and Environmental Safety255,114773(2023).PMID 37003064IF 6.8
PMID:37003064
Tao, X., et al.In vitro and in vivo assessments of Artemisia argyi fermented with Lactobacillus plantarum WLPL01 as an alternative anti-Salmonella agent.Food Control126,p. 108079(2021).IF 6.652
Wang, C.-C., et al.Dietary EPA-Enriched Phospholipids Alleviate Chronic Stress and LPS-Induced Depression- and Anxiety-Like Behavior by Regulating Immunity and Neuroinflammation.Molecular Nutrition & Food Research65(17),p. 2100009(2021).PMID 34219360IF 6.575
PMID:34219360
Zhang, G., et al.Inhalable Jojoba Oil Dry Nanoemulsion Powders for the Treatment of Lipopolysaccharide- or H2O2-Induced Acute Lung Injury.Pharmaceutics13(4),p. 486(2021).PMID 33918471IF 6.525
PMID:33918471
Xu, S., et al.Thermosensitive Poly(DHSe/PEG/PPG Urethane)-Based Hydrogel Extended Remdesivir Application in Ophthalmic Medication.Pharmaceutics14(1),p. 50(2022).PMID 35056947IF 6.525
PMID:35056947
Chen, X., et al.Polysaccharides from Sargassum fusiforme after UV/H 2 O 2 degradation effectively ameliorate dextran sulfate sodium-induced colitis.Food & function12(23),p. 11747-11759(2021).PMID 34806724IF 6.317
PMID:34806724
Guo, W., et al.Microalgae aqueous extracts exert intestinal protective effects in Caco-2 cells and dextran sodium sulphate-induced mouse colitis.Food & function11(1),p. 1098-1109(2020).PMID 31825424IF 6.317
PMID:31825424
Liu, H., et al.Characterization of Coxsackievirus A6 Strains Isolated From Children With Hand, Foot, and Mouth Disease.Frontiers in Cellular and Infection Microbiology11,(2021).PMID 34490141IF 6.073
PMID:34490141
She, P., et al.Synergistic Microbicidal Effect of Auranofin and Antibiotics Against Planktonic and Biofilm-Encased S. aureus and E. faecalis.Frontiers in Microbiology10,(2019).PMID 31708908IF 6.064
PMID:31708908
Peng, L.-Y., et al.Madecassoside Protects Against LPS-Induced Acute Lung Injury via Inhibiting TLR4/NF-κB Activation and Blood-Air Barrier Permeability.Frontiers in pharmacology11,p. 807(2020).PMID 32581788IF 5.988
PMID:32581788
Zhu, Y., et al.Cr(VI) promotes tight joint and oxidative damage by activating the Nrf2/ROS/Notch1 axis.Environmental Toxicology and Pharmacology85,p. 103640(2021).PMID 33757840IF 5.785
PMID:33757840
Song, S., et al.Granulocyte Colony-Stimulating Factor Enhances Brain Repair Following Traumatic Brain Injury Without Requiring Activation of Cannabinoid Receptors.Cannabis and Cannabinoid Research6(1),p. 48-57(2020).PMID 33614952IF 5.764
PMID:33614952
Wang, P., et al.Bacillus natto regulates gut microbiota and adipose tissue accumulation in a high-fat diet mouse model of obesity.Journal of Functional Foods68,p. 103923(2020).IF 5.223
Ruan, S., et al.Potential role of mTORC1 and the PI3K-Akt pathway in anti-acne properties of licorice flavonoids.Journal of Functional Foods70,p. 103968(2020).IF 5.223
Zhang, X., et al.Modulation of gut microbiota and intestinal metabolites by lactulose improves loperamide-induced constipation in mice.European Journal of Pharmaceutical Sciences158,p. 105676(2021).PMID 33310029IF 5.112
PMID:33310029
Geng, C., et al.Systematic impacts of chronic unpredictable mild stress on metabolomics in rats.Scientific Reports10(1),p. 700(2020).PMID 31959868IF 4.996
PMID:31959868
Zhou, C., et al.Effect of Inhibiting Tumor Angiogenesis After Embolization in the Treatment of HCC with Apatinib-Loaded p(N-Isopropyl-Acrylamide-co-Butyl Methyl Acrylate) Temperature-Sensitive Nanogel.Journal of hepatocellular carcinoma7,p. 447-456(2020).PMID 33409168IF 4.962
PMID:33409168
Bai, Y., et al.Obacunone Attenuates Liver Fibrosis with Enhancing Anti-Oxidant Effects of GPx-4 and Inhibition of EMT.Molecules26(2),p. 318(2021).PMID 33435504IF 4.927
PMID:33435504
Chen, Z., et al.Human decellularized adipose matrix derived hydrogel assists mesenchymal stem cells delivery and accelerates chronic wound healing.Journal of Biomedical Materials Research Part A109(8),p. 1418-1428(2021).PMID 33253453IF 4.854
PMID:33253453
Zhang, J., et al.Involvement of endoplasmic reticulum stress in trigeminal ganglion corneal neuron injury in dry eye disease.Front Mol Neurosci16,1083850(2023).PMID 37033374IF 4.8
PMID:37033374
Xu, J., et al.Molecular characterization of a Trichinella spiralis aspartic protease and its facilitation role in larval invasion of host intestinal epithelial cells.PLoS neglected tropical diseases14(4),p. e0008269(2020).PMID 32339171IF 4.781
PMID:32339171
Liu, L., et al.Selection and Validation of the Optimal Panel of Reference Genes for RT-qPCR Analysis in the Developing Rat Cartilage.Frontiers in Genetics11,(2020).PMID 33391345IF 4.772
PMID:33391345
Jin, N., et al.Transcutaneous amorphous preparation co-delivering curcumin and modified aptamer as a synergistic approach for the amelioration of psoriasis-like skin inflammation.Eur J Pharm Sci180,106314(2023).PMID 36326540IF 4.6
PMID:36326540
Wu, Q., et al.miR-138 inhibits epithelial-mesenchymal transition in silica-induced pulmonary fibrosis by regulating ZEB2.Toxicology461,p. 152925(2021).PMID 34481903IF 4.571
PMID:34481903
Pu, W., et al.Injectable human decellularized adipose tissue hydrogel containing stem cells enhances wound healing in mouse.Colloids and Surfaces A: Physicochemical and Engineering Aspects604,p. 125268(2020).IF 4.539
He, J., et al.SIRT1 Mediates H2S-Ameliorated Diabetes-Associated Cognitive Dysfunction in Rats: Possible Involvement of Inhibiting Hippocampal Endoplasmic Reticulum Stress and Synaptic Dysfunction.Neurochemical Research46(3),p. 611-623(2021).PMID 33534060IF 4.414
PMID:33534060
Dong, J., et al.Leukemia inhibitory factor prevents chicken follicular atresia through PI3K/AKT and Stat3 signaling pathways.Molecular and Cellular Endocrinology543,p. 111550(2022).PMID 34990741IF 4.369
PMID:34990741
Hu, M., et al.Aurantio-obtusin induces hepatotoxicity through activation of NLRP3 inflammasome signaling.Toxicology Letters354,p. 1-13(2022).PMID 34718095IF 4.271
PMID:34718095
Zahoor, A., et al.MerTK negatively regulates Staphylococcus aureus induced inflammatory response via Toll-like receptor signaling in the mammary gland.Molecular Immunology122,p. 1-12(2020).PMID 32247834IF 4.174
PMID:32247834
Liu, H., X. Yue, and G. ZhangDownregulation of miR?146a inhibits osteoporosis in the jaws of ovariectomized rats by regulating the Wnt/β?catenin signaling pathway.Int J Mol Med47(3),p. 6(2021).PMID 33655338IF 4.101
PMID:33655338
Li, F., et al.Dietary copper supplementation enhances lipolysis in Rex rabbits.Journal of Trace Elements in Medicine and Biology68,p. 126851(2021).PMID 34464873IF 3.995
PMID:34464873
Yue, X., et al.Molecular characterization of a Trichinella spiralis serine proteinase.Veterinary Research51(1),p. 125(2020).PMID 32988413IF 3.829
PMID:32988413
Lan, H., et al.Oral administration of Lactobacillus plantarum CQPC11 attenuated the airway inflammation in an ovalbumin (OVA)-induced Balb/c mouse model of asthma.Journal of Food Biochemistryp. e14036(2022).PMID 34981513IF 3.654
PMID:34981513
Wang, C., et al.Rubusoside alleviates the ovalbumin-induced mice allergic asthma by modulating the NF-κB activation.Journal of Food Biochemistry44(5),p. e13187(2020).PMID 32185800IF 3.654
PMID:32185800
Xiao, Y., et al.Loss function of Bcr mutation causes gastrointestinal dysmotility and brain developmental defects.Neurogastroenterology & Motility33(12),p. e14190(2021).PMID 34190380IF 3.598
PMID:34190380
Xu, S., et al.6-Gingerol induces cell-cycle G1-phase arrest through AKT–GSK 3β–cyclin D1 pathway in renal-cell carcinoma.Cancer Chemotherapy and Pharmacology85(2),p. 379-390(2020).PMID 31832810IF 3.288
PMID:31832810
Song, X., et al.Dexamethasone and insulin stimulate ghrelin secretion of broilers in a different way.General and Comparative Endocrinology268,p. 14-21(2018).PMID 30016627IF 3.255
PMID:30016627
Zhai, R., et al.The Effect of Heat Stress on Autophagy and Apoptosis of Rumen, Abomasum, Duodenum, Liver and Kidney Cells in Calves.Animals9(10),p. 854(2019).PMID 31652592IF 3.231
PMID:31652592
Dong, X., et al.The Effect of Intravenous Infusions of Glutamine on Duodenal Cell Autophagy and Apoptosis in Early-Weaned Calves.Animals9(7),(2019).PMID 31266182IF 3.231
PMID:31266182
Niu, Y., et al.Antioxidant and non-specific immune defenses in partially freeze-tolerant Xizang plateau frogs, Nanorana parkeri.Journal of Thermal Biology102,p. 103132(2021).PMID 34863473IF 3.189
PMID:34863473
Huang, K., et al.Findings of limb-girdle muscular dystrophy R7 telethonin-related patients from a Chinese neuromuscular center.neurogenetics(2022).PMID 34982307IF 3.017
PMID:34982307
Han, C.Y., et al.Berberine ameliorates CCl4?induced liver injury in rats through regulation of the Nrf2?Keap1?ARE and p53 signaling pathways.Mol Med Rep20(4),p. 3095-3102(2019).PMID 31432116IF 2.952
PMID:31432116
Pu, W., Y. Han, and M. YangHuman decellularized adipose tissue hydrogels as a culture platform for human adipose-derived stem cell delivery.Journal of Applied Biomaterials & Functional Materials19,p. 2280800020988141(2021).PMID 33926291IF 2.744
PMID:33926291
Wang, X., et al.Antiprolactinoma Effect of Hordenine by Inhibiting MAPK Signaling Pathway Activation in Rats.Evidence-Based Complementary and Alternative Medicine2020,p. 3107290(2020).PMID 32382283IF 2.65
PMID:32382283
Xu, H., et al.Effects of Ziyin Qianyang Formula on Renal Fibrosis through the TGF-β1/Smads Signaling Pathway in Spontaneously Hypertensive Rats.Evid Based Complement Alternat Med2022,(2022).PMID 36387359IF 2.6
PMID:36387359
Lu, X. and F. WangLactobacillus acidophilus and vitamin C attenuate ethanol?induced intestinal and liver injury in mice.Exp Ther Med22(3),p. 1005(2021).PMID 34345287IF 2.447
PMID:34345287
Liu, Q., et al.Cannabinoid receptor 2 activation decreases severity of cyclophosphamide-induced cystitis via regulating autophagy.Neurourology and Urodynamics39(1),p. 158-169(2020).PMID 31729056IF 2.367
PMID:31729056
She, P., et al.Repurposing Sitafloxacin, Prulifloxacin, Tosufloxacin, and Sisomicin as Antimicrobials Against Biofilm and Persister Cells of Pseudomonas aeruginosa.Current Microbiology79(1),p. 12(2021).PMID 34905092IF 2.343
PMID:34905092
Yu, S.-S., et al.Rapid and Efficient Detection of 16SrI Group Areca Palm Yellow Leaf Phytoplasma in China by Loop-Mediated Isothermal Amplification.Plant pathology journal36(5),p. 459-467(2020).PMID 33082730IF 2.321
PMID:33082730
Li, D., H. Wu, and H. DouWeight loss effect of sweet orange essential oil microcapsules on obese SD rats induced by high-fat diet.Bioscience, biotechnology, and biochemistry83(5),p. 923-932(2019).PMID 30741117IF 2.043
PMID:30741117
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