scientific journal | Q5633421 |
academic journal | Q737498 |
open-access journal | Q773668 |
P8375 | Crossref journal ID | 140525 |
P5115 | Directory of Open Access Journals ID | 2162-3945 |
2162-397X | ||
P8903 | HAL journal ID | 50193 |
P236 | ISSN | 2162-3945 |
2162-397X | ||
P7363 | ISSN-L | 2162-3945 |
P1277 | JUFO ID | 78098 |
P1055 | NLM Unique ID | 101567863 |
P856 | official website | http://www.landesbioscience.com/journals/adipocyte/ |
P10283 | OpenAlex ID | V4210208160 |
P3181 | OpenCitations bibliographic resource ID | 90807 |
P12834 | PMC journal ID | 1988 |
P7662 | Scilit journal ID | 39357 |
P1156 | Scopus source ID | 21100456202 |
P972 | catalog | Directory of Open Access Journals | Q1227538 |
P275 | copyright license | Creative Commons Attribution-NonCommercial | Q6936496 |
P17 | country | United Kingdom | Q145 |
P495 | country of origin | United States of America | Q30 |
P8875 | indexed in bibliographic review | Scopus | Q371467 |
Science Citation Index Expanded | Q104047209 | ||
P407 | language of work or name | English | Q1860 |
P123 | publisher | Taylor & Francis | Q880582 |
P1476 | title | Adipocyte |
Q42572288 | 14-3-3ζ: A numbers game in adipocyte function? |
Q89340951 | 3D MicroCT spatial and temporal characterization of thoracic aorta perivascular adipose tissue and plaque volumes in the ApoE-/- mouse model |
Q40449438 | 3T3-L1 adipocytes display phenotypic characteristics of multiple adipocyte lineages. |
Q112650515 | miR-669a-5p promotes adipogenic differentiation and induces browning in preadipocytes |
Q91542248 | A MetAP2 inhibitor blocks adipogenesis, yet improves glucose uptake in cells |
Q114377974 | A Straightforward Method for Adipocyte Size and Count Analysis Using Open-source Software QuPath |
Q37711945 | A cellular model for the investigation of depot specific human adipocyte biology |
Q112301550 | A chromatin accessibility landscape during early adipogenesis of human adipose-derived stem cells |
Q91181236 | A context-specific circadian clock in adipocyte precursor cells modulates adipogenesis |
Q39414089 | A functional role for structural variation in metabolism |
Q96649271 | A new human adipocyte model with PTEN haploinsufficiency |
Q91779667 | A new laminopathy caused by an Arg133/Leu mutation in lamin A/C and the effects thereof on adipocyte differentiation and the transcriptome |
Q33816222 | A novel and robust method for testing bimodality and characterizing porcine adipocytes of adipose tissue of 5 purebred lines of pig. |
Q37129098 | A novel automated image analysis method for accurate adipocyte quantification |
Q112608651 | A novel immune-related genes signature after bariatric surgery is histologically associated with non-alcoholic fatty liver disease |
Q37692539 | A possible secondary immune response in adipose tissue during weight cycling: The ups and downs of yo-yo dieting |
Q42624171 | A role for 5-lipoxygenase products in obesity-associated inflammation and insulin resistance |
Q58156984 | A role for FGF2 in visceral adiposity-associated mammary epithelial transformation |
Q36812330 | A short bout of HFD promotes long-lasting hepatic lipid accumulation. |
Q36866077 | A three-party alliance in solid tumors: Adipocytes, macrophages and vascular endothelial cells |
Q91391906 | A-FABP and oestrogens are independently involved in the development of breast cancer |
Q41032759 | ACE2/Ang 1-7 axis: A critical regulator of epicardial adipose tissue inflammation and cardiac dysfunction in obesity |
Q89644079 | Activated brown adipose tissue and its relationship to adiposity and metabolic markers: an exploratory study |
Q35834832 | Acute induction of uncoupling protein 1 by citrulline in cultured explants of white adipose tissue from lean and high-fat-diet-fed rats |
Q91844907 | Acylated and unacylated ghrelin directly regulate ß-3 stimulated lipid turnover in rodent subcutaneous and visceral adipose tissue ex vivo but not in vivo |
Q55617454 | Adamts1 responds to systemic cues and gates adipogenesis. |
Q97562632 | AdipoGauge software for analysis of biological microscopic images |
Q99203470 | Adipocyte ADAM17 plays a limited role in metabolic inflammation |
Q53080398 | Adipocyte CD1d determines adipose inflammation and insulin resistance in obesity. |
Q91632597 | Adipocyte abundances of CES1, CRYAB, ENO1 and GANAB are modified in-vitro by glucose restriction and are associated with cellular remodelling during weight regain |
Q91391953 | Adipocyte epigenetic alterations and potential therapeutic targets in transgenerationally inherited lean and obese phenotypes following ancestral exposures |
Q91595502 | Adipocyte hyperplasia: the primary mechanism of supraspinatus intramuscular fat accumulation after a complete rotator cuff tendon tear: a study in the rabbit |
Q38829061 | Adipocyte hypertrophy-hyperplasia balance contributes to weight loss after bariatric surgery. |
Q40745344 | Adipocyte size fluctuation, mechano-active lipid droplets and caveolae |
Q92578120 | Adipocytes as lipid sensors of oleic acid transport through a functional Caco-2/HT29-MTX intestinal barrier |
Q37237976 | Adipocytes, like their progenitors, contribute to inflammation of adipose tissues through promotion of Th-17 cells and activation of monocytes, in obese subjects |
Q26785555 | Adipogenesis is under surveillance of Hsp90 and the high molecular weight Immunophilin FKBP51 |
Q36719088 | Adipokines and central control in adenosine A1 receptor dependent glucose metabolism |
Q37692552 | Adipokines and insulin action: A sensitive issue |
Q37568261 | Adiponectin and IL-6: Mediators of inflammation in progression of healthy to type 2 diabetes in Indian population |
Q48181388 | Adiponectin-leptin ratio: A promising index to estimate adipose tissue dysfunction. Relation with obesity-associated cardiometabolic risk |
Q36068539 | Adipose ABCG1: A potential therapeutic target in obesity? |
Q36812364 | Adipose cell hypertrophy precedes the appearance of small adipocytes by 3 days in C57BL/6 mouse upon changing to a high fat diet |
Q41917793 | Adipose depots differ in cellularity, adipokines produced, gene expression, and cell systems. |
Q34346254 | Adipose lineage specification of bone marrow-derived myeloid cells |
Q50094455 | Adipose stem cells |
Q91675984 | Adipose tissue and body composition in women six years after gestational diabetes: factors associated with development of type 2 diabetes |
Q50199937 | Adipose tissue autophagy related gene expression is associated with glucometabolic status in human obesity |
Q37176085 | Adipose tissue depot and cell size dependency of adiponectin synthesis and secretion in human obesity |
Q37028520 | Adipose tissue depot specific differences of PLIN protein content in endurance trained rats |
Q37129090 | Adipose tissue insulin sensitivity and macrophage recruitment: Does PI3K pick the pathway? |
Q37568276 | Adipose tissue oxygenation: Effects on metabolic function |
Q36176430 | Adipose tissue signaling by nuclear receptors in metabolic complications of obesity |
Q36866060 | Adipose-derived stem cell fate is predicted by cellular mechanical properties |
Q90666926 | Adiposity and metabolic health in mice deficient in intestinal alkaline phosphatase |
Q37028404 | Adrenergic regulation of cellular plasticity in brown, beige/brite and white adipose tissues |
Q92298843 | Advanced-age C57BL/6JRj mice do not develop obesity upon western-type diet exposure |
Q51046072 | Age-dependent obesity and mitochondrial dysfunction. |
Q40244362 | Alterations to adipose tissue morphology during inflammatory arthritis is indicative of vasculopathology in DBA/1 mice |
Q48254240 | Altered structure and function of adipose tissue in long-lived mice with growth hormone-related mutations |
Q35998787 | Amelioration of insulin resistance by rosiglitazone is associated with increased adipose cell size in obese type 2 diabetic patients |
Q91391815 | An easy method for the clear detection of beige fat UCP1 by Western blotting |
Q39278472 | An orexinergic projection from perifornical hypothalamus to raphe pallidus increases rat brown adipose tissue thermogenesis |
Q112704852 | An organoid model derived from human adipose stem/progenitor cells to study adipose tissue physiology |
Q42572526 | An siRNA-based method for efficient silencing of gene expression in mature brown adipocytes |
Q112278176 | Analysis of the different characteristics between omental preadipocytes and differentiated white adipocytes using bioinformatics methods |
Q36719119 | Angiopoietin-like 4 (Angptl4): A glucocorticoid-dependent gatekeeper of fatty acid flux during fasting |
Q90214653 | Antibody-mediated neutralization of ACBP/DBI has anorexigenic and lipolytic effects |
Q93034959 | Association of FTO rs9939609 polymorphism with serum leptin, insulin, adiponectin, and lipid profile in overweight adults |
Q39331604 | Autophagy in the control of food intake |
Q37176091 | Beneficial effects of Brazilian propolis on type 2 diabetes in ob/ob mice: Possible involvement of immune cells in mesenteric adipose tissue |
Q112284567 | Bioinformatics analysis of candidate genes and potential therapeutic drugs targeting adipose tissue in obesity |
Q41885469 | Bisphenol A increases aP2 expression in 3T3L1 by enhancing the transcriptional activity of nuclear receptors at the promoter |
Q47855028 | Bone marrow adipocytes |
Q37129094 | Bovine dedifferentiated adipose tissue (DFAT) cells: DFAT cell isolation |
Q42115138 | Branched short-chain fatty acids modulate glucose and lipid metabolism in primary adipocytes. |
Q93359927 | Breast cancer-released exosomes trigger cancer-associated cachexia to promote tumor progression |
Q93332574 | Brown adipose tissue and glucose homeostasis - the link between climate change and the global rise in obesity and diabetes |
Q38139935 | Brown adipose tissue thermogenesis in the resistance to and reversal of obesity: A potential new mechanism contributing to the metabolic benefits of proglucagon-derived peptides. |
Q30430956 | Brown adipose tissue: Recent insights into development, metabolic function and therapeutic potential |
Q104751507 | Brown and beige adipose tissue: a novel therapeutic strategy for obesity and type 2 diabetes mellitus |
Q39152988 | Brown fat and vascular heat dissipation: The new cautionary tail |
Q40928102 | CCR5: A novel player in the adipose tissue inflammation and insulin resistance? |
Q91549354 | CD24 is required for regulating gene expression, but not glucose uptake, during adipogenesis |
Q100724354 | CRISPR/Cas9-mediated gene knockout in human adipose stem/progenitor cells |
Q36068545 | Calorie hoarding and thrifting: Foxa3 finds a way. |
Q96120904 | Cathepsin gene expression in abdominal subcutaneous adipose tissue of obese/overweight humans |
Q46015921 | Cellularity of adipose depots. |
Q33946398 | Characterization of Cre recombinase models for the study of adipose tissue |
Q40449431 | Characterization of a primary brown adipocyte culture system derived from human fetal interscapular fat. |
Q104609331 | Characterization of the adiponectin promoter + Cre recombinase insertion in the Tg(Adipoq-cre)1Evdr mouse by targeted locus amplification and droplet digital PCR |
Q37692555 | Chemokine network during adipogenesis in 3T3-L1 cells: Differential response between growth and proinflammatory factor in preadipocytes vs. adipocytes |
Q98285656 | Chronic stress and adipose tissue in the anorexic state: endocrine and epigenetic mechanisms |
Q36812394 | Chronic treatment with a carbon monoxide releasing molecule reverses dietary induced obesity in mice |
Q27023790 | Circadian regulation of adipose function |
Q90610388 | Circulating fibroblast growth factor 21 is reduced, whereas its production is increased in a fat depot-specific manner in cold-acclimated rats |
Q98203931 | Circulating microRNA changes in patients with impaired glucose regulation |
Q112613061 | Cleavage of the vaspin N-terminus releases cell-penetrating peptides that affect early stages of adipogenesis and inhibit lipolysis in mature adipocytes |
Q99587025 | Clinically confirmed DEL-1 as a myokine attenuates lipid-induced inflammation and insulin resistance in 3T3-L1 adipocytes via AMPK/HO-1- pathway |
Q42104925 | ClipR-59 plays a critical role in the regulation of body glucose homeostasis |
Q41813424 | Communication between natural killer T cells and adipocytes in obesity |
Q99236079 | Comparative [18F]FDG and [18F]DPA714 PET imaging and time-dependent changes of brown adipose tissue in tumour-bearing mice |
Q36812338 | Computed tomography-measured adipose tissue attenuation and area both predict adipocyte size and cardiometabolic risk in women |
Q38844951 | Conditional immortalization of primary adipocyte precursor cells |
Q33946400 | Contrast lipocryolysis: Pre- and post-session tempering improves clinical results |
Q36866122 | Contribution of lipid-reactive natural killer T cells to obesity-associated inflammation and insulin resistance |
Q50349432 | Correction to Ren et al., Adipocyte Volume 2, Issue 1, pp. 17–27. |
Q37692537 | Cross-tissue comparisons of leptin and adiponectin: DNA methylation profiles |
Q100441964 | Curated gene expression dataset of differentiating 3T3-L1 adipocytes under pharmacological and genetic perturbations |
Q42351271 | Cytokine signaling regulating adipose stromal cell trafficking |
Q99635502 | Daphne mucronata enhances cell proliferation and protects human adipose stem cells against monosodium iodoacetate induced oxidative stress in vitro |
Q38132747 | Dedifferentiated adipocyte-derived progeny cells (DFAT cells): Potential stem cells of adipose tissue |
Q99545275 | Depletion of ASK1 blunts stress-induced senescence in adipocytes |
Q91781987 | Depot-specific adipocyte-extracellular matrix metabolic crosstalk in murine obesity |
Q36719133 | Depot-specific differences in adipocyte insulin sensitivity in mice are diet- and function-dependent. |
Q37692544 | Developmental androgenization programs metabolic dysfunction in adult mice: Clinical implications |
Q92449263 | Differences in fatty acid profiles and desaturation indices of abdominal subcutaneous adipose tissue between pregnant women with and without PCOS |
Q41189866 | Differentiation and characterization of human facial subcutaneous adipocytes |
Q36719115 | Differentiation of human adipocytes at physiological oxygen levels results in increased adiponectin secretion and isoproterenol-stimulated lipolysis |
Q36382868 | Distinct roles for alpha-beta hydrolase domain 5 (ABHD5/CGI-58) and adipose triglyceride lipase (ATGL/PNPLA2) in lipid metabolism and signaling |
Q92064242 | Does butein affect adipogenesis? |
Q42575449 | Does chronic low-grade endotoxemia define susceptibility of obese humans to insulin resistance via dietary effects on gut microbiota? |
Q41996500 | Does inorganic nitrate say NO to obesity by browning white adipose tissue? |
Q50302643 | Donor-dependent variances of human adipose-derived stem cells in respect to the in-vitro endothelial cell differentiation capability |
Q37238021 | Dropping in on the lipid droplet- tumor protein D52 (TPD52) as a new regulator and resident protein. |
Q41189507 | Dynamic upregulation of CD24 in pre-adipocytes promotes adipogenesis |
Q50144392 | Dysregulated lipid storage and its relationship with insulin resistance and cardiovascular risk factors in non-obese Asian patients with type 2 diabetes |
Q26785565 | Effect of alcohol on adipose tissue: a review on ethanol mediated adipose tissue injury |
Q40928314 | Effect of soluble Jagged1-mediated inhibition of Notch signaling on proliferation and differentiation of an adipocyte progenitor cell model |
Q92417110 | Effects of ADIPOQ polymorphisms on individual susceptibility to coronary artery disease: a meta-analysis |
Q97545130 | Effects of SFRP4 overexpression on the production of adipokines in transgenic mice |
Q112744827 | Effects of SPARCL1 on the proliferation and differentiation of sheep preadipocytes |
Q53691643 | Effects of gut microbiota manipulation on ex vivo lipolysis in human abdominal subcutaneous adipocytes. |
Q40342547 | Effects of high glucose on caveolin-1 and insulin signaling in 3T3-L1 adipocytes |
Q112298021 | Effects of non-vascularized adipose tissue transplantation on its genetic profile |
Q99210117 | Effects of the adiponectin mimetic compound ALY688 on glucose and fat metabolism in visceral and subcutaneous rat adipocytes |
Q95940162 | Elastin-derived peptide VGVAPG decreases differentiation of mouse embryo fibroblast (3T3-L1) cells into adipocytes |
Q57466602 | Elucidating the role of Lkb1 and mTOR in adipose tissue |
Q47670492 | Elucidating the role of adipose tissue secreted factors in malignant transformation |
Q48265976 | Elucidating the role of plexin D1 in body fat distribution and susceptibility to metabolic disease using a zebrafish model system. |
Q49617047 | Emerging roles of SGLT2 inhibitors in obesity and insulin resistance: Focus on fat browning and macrophage polarization |
Q58090817 | Endoplasmic reticulum stress epigenetics is related to adiposity, dyslipidemia, and insulin resistance |
Q47250030 | Endothelial dysfunction occurs independently of adipose tissue inflammation and insulin resistance in ovariectomized Yucatan miniature-swine |
Q41933080 | Energy balance-dependent regulation of ovine glucose 6-phosphate dehydrogenase protein isoform expression |
Q35834778 | Energy balancing by fat Pik3ca |
Q35834761 | Erythropoietin and obesity-induced white adipose tissue inflammation: redefining the boundaries of the immunometabolism territory |
Q49193164 | Estradiol does not directly regulate adipose lipolysis. |
Q112710265 | Evaluating the feasibility of Cas9 overexpression in 3T3-L1 cells for generation of genetic knock-out adipocyte cell lines |
Q36068565 | Evaluation of reference genes for gene expression studies in human brown adipose tissue |
Q36719105 | Evidence for tuning adipocytes ICER levels for obesity care |
Q37028380 | Exercise regulation of adipose tissue |
Q92403897 | Expanding the role of bitter taste receptor in extra oral tissues: TAS2R38 is expressed in human adipocytes |
Q107562003 | Extracellular vesicles derived from lipoaspirate fluid promote fat graft survival |
Q41933095 | FGF receptor antagonism does not affect adipose tissue development in nutritionally induced obesity |
Q45057994 | Fasting rapidly increases fatty acid oxidation in white adipose tissue of young broiler chickens |
Q106647128 | Fat grafting and platelet-rich plasma in wound healing: a review of histology from animal studies |
Q26744147 | Fatty acid metabolism and the basis of brown adipose tissue function |
Q36866111 | Fetal epigenetic programming of adipokines |
Q91595419 | Fibroblast feeder layer supports adipogenic differentiation of human adipose stromal/progenitor cells |
Q41994084 | Fifty shades of white: Understanding heterogeneity in white adipose stem cells |
Q35998806 | Fighting obesity: When muscle meets fat. |
Q88010069 | Fish oil as a potential activator of brown and beige fat thermogenesis |
Q50209046 | Flow cytometric single cell analysis reveals heterogeneity between adipose depots |
Q38829057 | Form(ul)ation of adipocytes by lipids |
Q65001619 | Free lipid and computerized determination of adipocyte size. |
Q38689859 | Functionally enhanced brown adipose tissue in Ames dwarf mice |
Q36719101 | Galectin-12: A protein associated with lipid droplets that regulates lipid metabolism and energy balance |
Q42624178 | Galectin-3 is a regulator of metaflammation in adipose tissue and pancreatic islets |
Q41780568 | Gelatinase B (MMP-9) gene silencing does not affect murine preadipocyte differentiation. |
Q89039348 | Gender and age-related cell compositional differences in C57BL/6 murine adipose tissue stromal vascular fraction |
Q35144489 | Gene expression differences in adipose tissue associated with breast tumorigenesis |
Q36812425 | Gene expression in a rarely studied intraabdominal adipose depot, the round ligament, in severely obese women: A pilot study |
Q33946386 | Gene expression in subcutaneous adipose tissue differs in women with polycystic ovary syndrome and controls matched pair-wise for age, body weight, and body mass index |
Q35998800 | Gene expression profiling in adipose tissue from growing broiler chickens |
Q112700477 | Generation of functional fat organoid from rat superficial fascia |
Q35834726 | Genetic variants in leptin: Determinants of obesity and leptin levels in South Indian population |
Q96681888 | Ginsenoside Rb2 improves insulin resistance by inhibiting adipocyte pyroptosis |
Q89092219 | Glucoraphanin: a broccoli sprout extract that ameliorates obesity-induced inflammation and insulin resistance |
Q40642238 | Glucose starvation and hypoxia, but not the saturated fatty acid palmitic acid or cholesterol, activate the unfolded protein response in 3T3-F442A and 3T3-L1 adipocytes |
Q100521413 | Glutamine metabolism in adipocytes: a bona fide epigenetic modulator of inflammation |
Q33946414 | Glutathionylated products of lipid peroxidation: A novel mechanism of adipocyte to macrophage signaling |
Q88725814 | Glycemic control and its associated factors among diabetes mellitus patients at Ayder comprehensive specialized hospital, Mekelle-Ethiopia |
Q38746901 | HSD1 and AQP7 short-term gene regulation by cortisone in 3T3-L1 adipocytes |
Q40234158 | Habitual physical activity protects against lipopolysaccharide-induced inflammation in mouse adipose tissue |
Q39331845 | Haptoglobin deficiency determines changes in adipocyte size and adipogenesis |
Q92221494 | Harnessing adipogenesis to prevent obesity |
Q40928033 | Heart hormones fueling a fire in fat. |
Q38820897 | Hematopoietic-to-mesenchymal transition of adipose tissue macrophages is regulated by integrin β1 and fabricated fibrin matrices. |
Q36812421 | High-fat diet-induced obesity Rat model: a comparison between Wistar and Sprague-Dawley Rat |
Q91193298 | Higher lactate production from glucose in cultured adipose nucleated stromal cells than for rat adipocytes |
Q37692547 | How brown is brown fat that we can see? |
Q97879639 | HuR expression in adipose tissue mediates energy expenditure and acute thermogenesis independent of UCP1 expression |
Q36812379 | Human cytomegalovirus infection of human adipose-derived stromal/stem cells restricts differentiation along the adipogenic lineage |
Q41179606 | Hypothalamic GLP-1: the control of BAT thermogenesis and browning of white fat. |
Q47271475 | Hypothalamic GRP78, a new target against obesity? |
Q107562106 | Hypoxic ADSCs-derived EVs promote the proliferation and chondrogenic differentiation of cartilage stem/progenitor cells |
Q98393124 | Identification of DNA response elements regulating expression of CCAAT/enhancer-binding protein (C/EBP) β and δ and MAP kinase-interacting kinases during early adipogenesis |
Q112277172 | Identification of FOXM1 and CXCR4 as key genes in breast cancer prevention and prognosis after intermittent energy restriction through bioinformatics and functional analyses |
Q42009932 | Identification of a novel interorgan mechanism favoring energy storage in overnutrition |
Q92587255 | Identification of biomarkers, pathways and potential therapeutic agents for white adipocyte insulin resistance using bioinformatics analysis |
Q112294019 | Identification of core gene in obese type 2 diabetes patients using bioinformatics analysis |
Q96963246 | Identification of differentially expressed mRNA and the Hub mRNAs modulated by lncRNA Meg3 as a competing endogenous RNA in brown adipose tissue of mice on a high-fat diet |
Q40928242 | Imaging the neuroendocrinology of appetite |
Q37568253 | Impairment of insulin-stimulated glucose transport and ERK activation by adipocyte-specific knockout of PKC-λ produces a phenotype characterized by diminished adiposity and enhanced insulin suppression of hepatic gluconeogenesis |
Q36719153 | Implications of (2)H-labeling of DNA protocol to measure in vivo cell turnover in adipose tissue |
Q35834766 | Improved adipose tissue metabolism after 5-year growth hormone replacement therapy in growth hormone deficient adults: The role of zinc-α2-glycoprotein |
Q85580051 | In this Issue of Adipocyte |
Q85885652 | In this Issue of Adipocyte |
Q54701238 | In this Issue of Adipocyte. |
Q55510864 | In this Issue of Adipocyte. |
Q94334799 | In this issue of |
Q94368155 | In this issue of |
Q33946380 | In this issue of Adipocyte |
Q93577124 | In this issue of Adipocyte |
Q94095141 | In this issue of Adipocyte |
Q85957495 | In this issue of Adipocyte |
Q86024921 | In this issue of Adipocyte |
Q86843162 | In this issue of Adipocyte |
Q86843171 | In this issue of Adipocyte |
Q86843189 | In this issue of Adipocyte |
Q86843197 | In this issue of Adipocyte |
Q87010411 | In this issue of Adipocyte |
Q87334604 | In this issue of Adipocyte |
Q87369957 | In this issue of Adipocyte |
Q87652691 | In this issue of Adipocyte |
Q88312156 | In this issue of Adipocyte |
Q88420342 | In this issue of Adipocyte |
Q89018196 | In this issue of Adipocyte |
Q89366162 | In this issue of Adipocyte |
Q97898982 | In vitro characterization of the effects of chronic insulin stimulation in mouse 3T3-L1 and human SGBS adipocytes |
Q91595481 | In vitro transdifferentiation of human adipose tissue-derived stem cells to neural lineage cells - a stage-specific incidence |
Q91256313 | Increased oxidative stress, inflammation and fibrosis in perirenal adipose tissue of patients with cortisol-producing adenoma |
Q100441943 | Increased whole body energy expenditure and protection against diet-induced obesity in Cyp8b1-deficient mice is accompanied by altered adipose tissue features |
Q36866082 | Increasing muscle mass to improve metabolism. |
Q91682940 | Influence of glucose and insulin in human adipogenic differentiation models with adipose-derived stem cells |
Q100521357 | Inhibition of Aurora-A improves insulin resistance by ameliorating islet inflammation and controlling interleukin-6 in a diabetic mouse model |
Q96828852 | Inhibition of γ-secretase in adipocytes leads to altered IL-6 secretion and adipose inflammation |
Q40745334 | Injecting engineered anti-inflammatory macrophages therapeutically induces white adipose tissue browning and improves diet-induced insulin resistance |
Q28073289 | Inside out: Bone marrow adipose tissue as a source of circulating adiponectin |
Q35834827 | Insights into Brown Adipose Tissue Physiology as Revealed by Imaging Studies |
Q41189742 | Insights into an adipocyte whitening program |
Q92989088 | Insulin negatively regulates dedifferentiation of mouse adipocytes in vitro |
Q91930902 | Insulin-induced lipid body accumulation is accompanied by lipid remodelling in model mast cells |
Q91582694 | Insulin-induced serine 22 phosphorylation of retinoid X receptor alpha is dispensable for adipogenesis in brown adipocytes |
Q97591633 | Integrative analyses of biomarkers and pathways for adipose tissue after bariatric surgery |
Q112278631 | Integrative analyses of hub genes and their association with immune infiltration in adipose tissue, liver tissue and skeletal muscle of obese patients after bariatric surgery |
Q91469864 | Interactions between macro-nutrients' intake, FTO and IRX3 gene expression, and FTO genotype in obese and overweight male adolescents |
Q35998810 | Intermuscular and intramuscular adipose tissues: Bad vs. good adipose tissues |
Q47973219 | Intracellular lipid droplets support osteoblast function |
Q89991103 | Introduction of ligated vessels promote the retention and regeneration of free fat: constructing a fat flap in tissue engineering chamber |
Q90351294 | Involvement of calcium channels in the regulation of adipogenesis |
Q54106200 | Iodine values of adipose tissue varied among breeds of pigs and were correlated with pork quality. |
Q34372436 | Irisin and FNDC5 in retrospect: An exercise hormone or a transmembrane receptor? |
Q26785561 | Is immunity a mechanism contributing to statin-induced diabetes? |
Q35834715 | Is interleukin-1β a culprit in macrophage-adipocyte crosstalk in obesity? |
Q36866098 | Is the adipose tissue a key target of developmental programming of adult adiposity by maternal undernutrition? |
Q37568249 | Is the lack of adiponectin associated with increased ER/SR stress and inflammation in the heart? |
Q42777571 | Itm2a silencing rescues lamin A mediated inhibition of 3T3-L1 adipocyte differentiation. |
Q92298812 | KD025 (SLx-2119) suppresses adipogenesis at intermediate stage in human adipose-derived stem cells |
Q37176099 | Knockdown of ZBED6 is not associated with changes in murine preadipocyte proliferation or differentiation |
Q36719123 | Leptin increasing sympathetic nerve outflow in obesity: A cure for obesity or a potential contributor to metabolic syndrome? |
Q91193267 | Leptin stimulates autophagy/lysosome-related degradation of long-lived proteins in adipocytes |
Q89991134 | Lifestyle intervention in individuals with impaired glucose regulation affects Caveolin-1 expression and DNA methylation |
Q39332355 | Like pigs, and unlike other breeds of cattle examined, mature Angus-derived adipocytes may extrude lipid prior to proliferation in vitro |
Q35834775 | Lipolysis, lipogenesis, and adiposity are reduced while fatty acid oxidation is increased in visceral and subcutaneous adipocytes of endurance-trained rats |
Q37028362 | Liver X receptor β: new player in the regulatory network of thyroid hormone and 'browning' of white fat. |
Q47261120 | Loading and firing the brown adipocyte |
Q37129102 | Local adipocytes enable estrogen-dependent breast cancer growth: Role of leptin and aromatase |
Q40341846 | Local fat treatments: classification proposal |
Q94667769 | Long term hypoxia during gestation alters perirenal adipose tissue gene expression in the lamb |
Q37129107 | Loss of adipocyte specification and necrosis augment tumor-associated inflammation |
Q28388738 | Loss of menin mediated by endothelial cells treated with CoPP is associated with increased maturation of adipocytes |
Q33946391 | Low abdominal subcutaneous preadipocyte adipogenesis is associated with visceral obesity, visceral adipocyte hypertrophy, and a dysmetabolic state |
Q90259126 | Low and high concentrations of butyrate regulate fat accumulation in chicken adipocytes via different mechanisms |
Q92017184 | Low-intensity pulsed ultrasound inhibits adipogenic differentiation via HDAC1 signalling in rat visceral preadipocytes |
Q35834771 | Lower body adipose tissue removal decreases glucose tolerance and insulin sensitivity in mice with exposure to high fat diet |
Q47309600 | Lsd1, a metabolic sensor of environment requirements that prevents adipose tissue from aging |
Q91616175 | Lymphocytes upregulate CD36 in adipose tissue and liver |
Q41972588 | Lysosomal Cathepsin D contributes to cell death during adipocyte hypertrophy |
Q38815129 | Lysyl oxidase propeptide promotes adipogenesis through inhibition of FGF-2 signaling |
Q49277335 | Lysyl oxidase propeptide promotes adipogenesis through inhibition of FGF-2 signaling |
Q41189692 | M1-M2 balancing act in white adipose tissue browning - a new role for RIP140. |
Q35834745 | MAGP1, the extracellular matrix, and metabolism |
Q36068550 | Macro fat and micro fat: insulin sensitivity and gender dependent response of adipose tissue to isocaloric diet change |
Q91239851 | Maintaining mitochondria in beige adipose tissue |
Q89448981 | Matrix Gla protein regulates adipogenesis and is serum marker of visceral adiposity |
Q40928899 | Mechanisms underlying restoration of hepatic insulin sensitivity with CB1 antagonism in the obese dog model |
Q38730384 | Meeting report of the 2016 bone marrow adiposity meeting. |
Q36719145 | Metabolic alterations following visceral fat removal and expansion: Beyond anatomic location |
Q36719168 | Metabolic benefits of inhibiting cAMP-PDEs with resveratrol |
Q36866065 | Metabolic impact of sex chromosomes |
Q113848141 | Metformin and vitamin D modulate adipose-derived stem cell differentiation towards the beige phenotype |
Q91782027 | MiR-130a in the adipogenesis of human SGBS preadipocytes and its susceptibility to androgen regulation |
Q91782011 | MiR-455 targeting SOCS3 improve liver lipid disorders in diabetic mice |
Q112722944 | MicroRNA-29b/29c targeting CTRP6 influences porcine adipogenesis via the AKT/PKA/MAPK Signalling pathway |
Q37237983 | Minor differences in the molecular machinery mediating regulated membrane fusion has major impact on metabolic health |
Q50056981 | Mirna biogenesis pathway is differentially regulated during adipose derived stromal/stem cell differentiation |
Q91757730 | Modelling the gene expression and the DNA-binding in the 3T3-L1 differentiating adipocytes |
Q37028370 | Molecular clock integration of brown adipose tissue formation and function |
Q36812400 | More insights into a human adipose tissue GPAT activity assay |
Q38888587 | Morphogenetics in brown, beige and white fat development |
Q104511032 | Mouse Embryonic Fibroblast Adipogenic Potential: A Comprehensive Transcriptome Analysis |
Q36719110 | Muscle-to-organ cross talk mediated by myokines |
Q42105768 | Mutually exclusive acetylation and ubiquitylation among enzymes involved in glucose metabolism |
Q42801163 | Nck2, an unexpected regulator of adipogenesis |
Q39332084 | New insights into adipocyte-specific leptin gene expression |
Q40927994 | New insights into adipose tissue VEGF-A actions in the control of obesity and insulin resistance. |
Q38108770 | New players on the metabolic stage: How do you like Them Acots? |
Q38108771 | New roles for OMA1 metalloprotease: From mitochondrial proteostasis to metabolic homeostasis |
Q91610119 | Non-obesogenic doses of palmitate disrupt circadian metabolism in adipocytes |
Q41896576 | Novel insights into histone modifiers in adipogenesis |
Q41933107 | Novel nuances of human brown fat. |
Q97431804 | Novel semi-automated algorithm for high-throughput quantification of adipocyte size in breast adipose tissue, with applications for breast cancer microenvironment |
Q42878695 | Nutritional milieu of isolated stromal vascular cells determines their proliferative, adipogenic, and lipogenic capacity in vitro. |
Q38288199 | Obesity is associated with depot-specific alterations in adipocyte DNA methylation and gene expression |
Q36068555 | Obesity-induced remodeling of the adipose tissue elastin network is independent of the metalloelastase MMP-12. |
Q36719128 | Of mice and men: Factors abrogating the antiobesity effect of omega-3 fatty acids |
Q37237964 | On the origin of human adipocytes and the contribution of bone marrow-derived cells |
Q35834750 | Optimization of in vitro cultivation strategies for human adipocyte derived stem cells |
Q93035004 | Optimizing adipogenic transdifferentiation of bovine mesenchymal stem cells: a prominent role of ascorbic acid in FABP4 induction |
Q40928558 | Orexin receptor-1 mediates brown fat developmental differentiation |
Q91815296 | PNPLA3-I148M: a problem of plenty in non-alcoholic fatty liver disease |
Q26796386 | Particle size in fat graft retention: A review on the impact of harvesting technique in lipofilling surgical outcomes |
Q35998796 | Pathophysiological role of enhanced bone marrow adipogenesis in diabetic complications. |
Q35834755 | Pathways commonly dysregulated in mouse and human obese adipose tissue: FAT/CD36 modulates differentiation and lipogenesis |
Q36719096 | Peri-adipocyte ECM remodeling in obesity and adipose tissue fibrosis. |
Q36866086 | Perilipin 1 moves between the fat droplet and the endoplasmic reticulum |
Q104739665 | Porphyromonas gingivalis lipopolysaccharide (Pg-LPS) influences adipocytes injuries through triggering XBP1 and activating mitochondria-mediated apoptosis |
Q36812416 | Postprandial fatty acid uptake and adipocyte remodeling in angiotensin type 2 receptor-deficient mice fed a high-fat/high-fructose diet |
Q49665445 | Postprandial gut microbiota-driven choline metabolism links dietary cues to adipose tissue dysfunction |
Q37176103 | Preadipocytes proliferate and differentiate under the guidance of Delta-like 1 homolog (DLK1) |
Q57064426 | Proliferation of nutrition sensing preadipocytes upon short term HFD feeding |
Q89136420 | Promotion of lipid storage rather than of thermogenic competence by fetal versus newborn calf serum in primary cultures of brown adipocytes |
Q39242691 | Properties of porcine adipose-derived stem cells and their applications in preclinical models |
Q41189607 | Propionic acid and butyric acid inhibit lipolysis and de novo lipogenesis and increase insulin-stimulated glucose uptake in primary rat adipocytes |
Q38575787 | Prostaglandin E2 signals white-to-brown adipogenic differentiation |
Q39870883 | Proteomic analysis of protein palmitoylation in adipocytes |
Q36866103 | Proteomics in the characterization of adipose dysfunction in obesity |
Q47973213 | Puberty is an important developmental period for the establishment of adipose tissue mass and metabolic homeostasis |
Q38814766 | Quantification of UCP1 function in human brown adipose tissue |
Q92610717 | Quantitative analyses of adiposity dynamics in zebrafish |
Q41687726 | Quantitative assessment of adipocyte differentiation in cell culture |
Q36719084 | Quantitative dynamics of adipose cells |
Q99203466 | RAGE signalling in obesity and diabetes: focus on the adipose tissue macrophage |
Q37176094 | Rats perinatally exposed to food restriction and high-fat diet show differences in adipose tissue gene expression under chronic caloric restriction |
Q39044029 | Recent advances in the understanding of how neuropeptide Y and α-melanocyte stimulating hormone function in adipose physiology |
Q33946405 | Regulation of S100B in white adipose tissue by obesity in mice |
Q38132748 | Regulation of alternative splicing in obesity and weight loss |
Q37237968 | Regulation of human adipogenesis by miR125b-5p |
Q36719181 | Regulation of tissue crosstalk by skeletal muscle-derived myonectin and other myokines |
Q112641366 | Regulatory network of metformin on adipogenesis determined by combining high-throughput sequencing and GEO database |
Q41179559 | Regulatory role of CD40 in obesity-induced insulin resistance |
Q91909111 | Relationship between epicardial adipose tissue thickness and epicardial adipocyte size with increasing body mass index |
Q35834710 | Relationship of circulating adipokines to body composition in pregnant women |
Q39085372 | Retinoic acid is abundantly detected in different depots of adipose tissue by SERS. |
Q101239848 | Revisiting PPARγ as a new friend of GPR120 in the treatment of metabolic disorders |
Q94667793 | Role of TLR4 in the induction of inflammatory changes in adipocytes and macrophages |
Q36719159 | Role of adipose and hepatic atypical protein kinase C lambda (PKCλ) in the development of obesity and glucose intolerance |
Q41179437 | Role of amyloid β in the induction of lipolysis and secretion of adipokines from human adipose tissue |
Q39331776 | Role of cardiotrophin-1 in obesity and insulin resistance |
Q42232167 | Role of histone deacetylase 9 in regulating adipogenic differentiation and high fat diet-induced metabolic disease |
Q35834842 | Role of microRNA biogenesis in adipocyte and lipodystrophy |
Q90666935 | Role of peroxisome proliferator-activated receptor gamma Pro12Ala polymorphism in human adipose tissue: assessment of adipogenesis and adipocyte glucose and lipid turnover |
Q42009939 | Roles of activin receptor-like kinase 7 signaling and its target, peroxisome proliferator-activated receptor γ, in lean and obese adipocytes |
Q92114995 | Roles of omental and bone marrow adipocytes in tumor biology |
Q104609315 | SENP1 is required for the growth, migration, and survival of human adipose-derived stem cells |
Q57279506 | SGLT6 - A pharmacological target for the treatment of obesity? |
Q92185180 | SWELL signalling in adipocytes: can fat 'feel' fat? |
Q113848140 | Salvianolic acid A promotes mitochondrial biogenesis and mitochondrial function in 3T3-L1 adipocytes through regulation of the AMPK-PGC1α signalling pathway |
Q39332229 | Seeking the source of adipocytes in adult white adipose tissues |
Q94667773 | Serum leptin levels are positively associated with aortic stiffness in patients with chronic kidney disease stage 3-5 |
Q37129085 | Sex differences in adipose tissue: It is not only a question of quantity and distribution |
Q46573537 | Shades of brown: an introduction for the special focus issue of Adipocyte on “brown and beige/brite adipocytes”. |
Q37692528 | Short-term HFD does not alter lipolytic function of adipocytes |
Q40928068 | Sirtuin-1 is a nutrient-dependent modulator of inflammation |
Q37692534 | Skewing of immune cell cytokine production by mediators from adipocytes and endothelial cells |
Q37692531 | Sodium acetate decreases phosphorylation of hormone sensitive lipase in isoproterenol-stimulated 3T3-L1 mature adipocytes |
Q36719149 | Stay lean without dieting: Lose Sam68 |
Q46375153 | Stress turns on the heat: Regulation of mitochondrial biogenesis and UCP1 by ROS in adipocytes |
Q41681813 | Subcutaneous abdominal adipose tissue is associated with an index of insulin sensitivity/resistance |
Q91536569 | Subcutaneous adipose tissue accumulation protects systemic glucose tolerance and muscle metabolism |
Q101239847 | Surface-associated lipid droplets: an intermediate site for lipid transport in human adipocytes? |
Q37028372 | Surgical injury induces local and distant adipose tissue browning |
Q38663339 | TIPping the balance in adipogenesis: USP7-mediated stabilization of Tip60. |
Q42129851 | TLR4-dependant pro-inflammatory effects of HMGB1 on human adipocyte. |
Q96647528 | TSH promotes adiposity by inhibiting the browning of white fat |
Q40928722 | Temporal analysis of protein lysine acetylation during adipocyte differentiation. |
Q89487525 | The ADRB3 rs4994 polymorphism increases risk of childhood and adolescent overweight/obesity for East Asia's population: an evidence-based meta-analysis |
Q37692541 | The AdipoChaser mouse: A model tracking adipogenesis in vivo. |
Q36719137 | The GSK-3β/Fyn/Nrf2 pathway in fibroblasts and wounds of type 2 diabetes: On the road to an evidence-based therapy of non-healing wounds |
Q38117377 | The TLR family protein RP105/MD-1 complex: A new player in obesity and adipose tissue inflammation |
Q36068560 | The cell size and distribution of adipocytes from subcutaneous and visceral fat is associated with type 2 diabetes mellitus in humans |
Q35998814 | The cellularity of offspring's adipose tissue is programmed by maternal nutritional manipulations |
Q96120392 | The common pathophysiologic threads between Asian Indian diabetic's 'Thin Fat Phenotype' and partial lipodystrophy: the peripheral adipose tissue transcriptomic evidences |
Q38829054 | The contribution of bone marrow-derived cells to the human adipocyte pool |
Q98657931 | The diabetes medication canagliflozin promotes mitochondrial remodelling of adipocyte via the AMPK-Sirt1-Pgc-1α signalling pathway |
Q47326297 | The dual role of BMP4 in adipogenesis and metabolism |
Q96649266 | The effect of Acot2 overexpression or downregulation on the preadipocyte differentiation in Chinese Red Steppe cattle |
Q36719176 | The effects of early under-nutrition on the development of wBAT and obesity |
Q59607787 | The effects of polyphenol supplementation on adipose tissue morphology and gene expression in overweight and obese humans |
Q43247833 | The effects of time-restricted feeding on lipid metabolism and adiposity |
Q97651637 | The histone methyltransferase Suv39h regulates 3T3-L1 adipogenesis |
Q37568266 | The immune cell transcription factor T-bet: A novel metabolic regulator. |
Q36719164 | The liver: Key in regulating appetite and body weight |
Q38191624 | The multifaceted role of profilin-1 in adipose tissue inflammation and glucose homeostasis |
Q42575448 | The one-two punch: Retinoic acid suppresses obesity both by promoting energy expenditure and by inhibiting adipogenesis |
Q27013733 | The origin and definition of brite versus white and classical brown adipocytes |
Q37568271 | The p38-PGC-1α-irisin-betatrophin axis: Exploring new pathways in insulin resistance |
Q35998790 | The proliferation and differentiation of primary pig preadipocytes is suppressed when cultures are incubated at 37°Celsius compared to euthermic conditions in pigs |
Q42572619 | The protein source determines the potential of high protein diets to attenuate obesity development in C57BL/6J mice |
Q106647123 | The role and research progress of the balance and interaction between regulatory T cells and other immune cells in obesity with insulin resistance |
Q90002683 | The role of adipocyte-specific IL-6-type cytokine signaling in FFA and leptin release |
Q37238016 | The role of adipose-derived inflammatory cytokines in type 1 diabetes |
Q46380325 | The role of glucose-6-phosphate dehydrogenase in adipose tissue inflammation in obesity |
Q93097217 | The role of perivascular adipose tissue in the appearance of ectopic adipocytes in the abdominal aortic aneurysmal wall |
Q51740330 | The role of polyunsaturated fatty acids (n-3 PUFAs) on the pancreatic β-cells and insulin action. |
Q41933144 | The role of thrombospondin (TSP)-1 in obesity and diabetes |
Q35834720 | The role of visceral and subcutaneous adipose tissue fatty acid composition in liver pathophysiology associated with NAFLD. |
Q36866116 | The transcription factors myeloid elf-1-like factor (MEF) and distal-less homeobox 5 (Dlx5) inversely regulate the differentiation of osteoblasts and adipocytes in bone marrow |
Q42819949 | The transient expression of Klf4 and Klf5 during adipogenesis depends on GSK3β activity. |
Q39332431 | Therapeutic value of brown adipose tissue: Correcting metabolic disease through generating healthy fat. |
Q91782097 | Towards precision medicine: defining and characterizing adipose tissue dysfunction to identify early immunometabolic risk in symptom-free adults from the GEMM family study |
Q35834741 | Transcriptional fingerprinting of "browning" white fat identifies NRG4 as a novel adipokine |
Q92508417 | Transcriptome profiling reveals association of peripheral adipose tissue pathology with type-2 diabetes in Asian Indians |
Q91782000 | Transplantation of adipose tissue lacking PAI-1 improves glucose tolerance and attenuates cardiac metabolic abnormalities in high-fat diet-induced obesity |
Q89448932 | Transplantation of brown adipose tissue up-regulates miR-99a to ameliorate liver metabolic disorders in diabetic mice by targeting NOX4 |
Q34407211 | Two types of brown adipose tissue in humans |
Q36719093 | Uncoupling protein-2 (UCP2) gene expression in subcutaneous and omental adipose tissue of Asian Indians: Relationship to adiponectin and parameters of metabolic syndrome |
Q92015135 | Unspecific DNA recombination in AdipoqCre-ERT2 - mediated knockout approaches in transgenic mice is sex-, age- and genotype-dependent |
Q98899744 | Ursolic acid induces the production of IL6 and chemokines in both adipocytes and adipose tissue |
Q59715395 | Use of C-glucose by primary cultures of mature rat epididymal adipocytes. Marked release of lactate and glycerol, but limited lipogenesis in the absence of external stimuli |
Q40928856 | Valsartan restores inflammatory response by macrophages in adipose and hepatic tissues of LPS-infused mice |
Q35834850 | Viral mechanisms of adipose dysfunction: lessons from HIV-1 Vpr |
Q90685520 | Visceral adipose tissue alteration of PI3KR1 expression is associated with gestational diabetes but not promoter DNA methylation |
Q37028410 | Visfatin expression analysis in association with recruitment and activation of human and rodent brown and brite adipocytes. |
Q42747622 | Visfatin is involved in TNFα-mediated insulin resistance via an NAD(+)/Sirt1/PTP1B pathway in 3T3-L1 adipocytes |
Q47566849 | Voluntary wheel running improves adipose tissue immunometabolism in ovariectomized low-fit rats |
Q36866092 | WAT is a functional adipocyte? |
Q40928441 | Welcome to Adipocyte |
Q58273154 | What activates thermogenesis when lipid droplet lipolysis is absent in brown adipocytes? |
Q26744143 | What induces watts in WAT? |
Q99587021 | Whole-slide image analysis outperforms micrograph acquisition for adipocyte size quantification |
Q28829408 | Wnt inhibition enhances browning of mouse primary white adipocytes |
Q35834732 | Wt1, the mesothelium and the origins and heterogeneity of visceral fat progenitors |
Q98307477 | Zyflamend, a unique herbal blend, induces cell death and inhibits adipogenesis through the coordinated regulation of PKA and JNK |
Q112291811 | microRNA-26a shuttled by extracellular vesicles secreted from adipose-derived mesenchymal stem cells reduce neuronal damage through KLF9-mediated regulation of TRAF2/KLF2 axis |
Q37176108 | γ-synuclein is a novel player in the control of body lipid metabolism |
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