WikiPathways:NewPathwayReleases

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'''Each month there are new pathways reviewed and approved for the official release of WikiPathways. See the [[Download_Pathways|Download Page]] to access the full collection.'''
'''Each month there are new pathways reviewed and approved for the official release of WikiPathways. See the [[Download_Pathways|Download Page]] to access the full collection.'''
-
===August 2020===
+
===January 2023===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP471|250px||Beta Oxidation of Unsaturated Fatty Acids (Caenorhabditis elegans)}}
+
|width=100px|{{#pwImage:Pathway:WP5077|250px||Response to acute ibuprofen exposure (Daphnia magna)}}
 +
|width=100px|{{#pwImage:Pathway:WP5276|250px||Estrogen metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5299|250px||Ganglio series sphingolipid metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5303|250px||Lacto series sphingolipid metabolism (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5280|250px||Glucocorticoid biosynthesis (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5290|250px||Lipid remodeling (Anopheles gambiae)}}
 +
|width=100px|{{#pwImage:Pathway:WP5292|250px||Glycosphingolipid metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5277|250px||Steroid hormone precursor biosynthesis (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5300|250px||TROP2 regulatory signaling (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5302|250px||Neolacto series sphingolipid metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5279|250px||Mineralocorticoid biosynthesis (Homo sapiens)}}
|}
|}
-
===July 2020===
+
===December 2022===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP4928|250px||MAPK pathway in congenital thyroid cancer (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5218|250px||Extrafollicular and follicular B cell activation by SARS-CoV-2 (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4940|250px||15q11.2 copy number variation syndrome (Homo sapiens)}}
+
-
|width=100px|{{#pwImage:Pathway:WP4944|250px||Mitochondrial Complex I inhibition leading to chemical induced fanconi syndrome (Homo sapiens)}}
+
-
|width=100px|{{#pwImage:Pathway:WP4947|250px||NO metabolism in cystic fibrosis (Homo sapiens)}}
+
|}
|}
-
===June 2020===
+
===November 2022===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP4806|250px||EGFR Tyrosine Kinase Inhibitor Resistance (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5078|250px||T cell modulation in pancreatic cancer (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4844|250px||The influence of laminopathies on Wnt signaling (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5155|250px||Arachidonic acid (AA, ARA) oxylipin metabolism (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4853|250px||Linoleic acid metabolism known to be affected by coronavirus infection (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5236|250px||Markers of kidney cell lineage (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4861|250px||Endoplasmic reticulum (ER) stress response in Coronavirus infection (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5242|250px||Comprehensive IL-17A signaling pathway (Mus musculus)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4883|250px||SARS-CoV-2 and Angiotensin-converting enzyme 2 (ACE2) receptor: Molecular mechanisms and potential therapeutic target (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5284|250px||Cell interactions of the pancreatic cancer microenvironment (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4904|250px||LDLRAD4 and what we know about it (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5287|250px||17q12 copy number variation syndrome (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4906|250px||3q29 copy number variation syndrome (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP4936|250px||Perturbations to host-cell autophagy, induced by SARS-CoV-2 proteins (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4927|250px||COVID-19, thrombosis and anticoagulation (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5294|250px||Sildenafil treatment (Homo sapiens)}}
 +
|}
 +
===October 2022===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5283|250px||Chronic hyperglycemia impairment of neuron function (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5237|250px||Serotonin reuptake inhibitor response (Daphnia magna)}}
 +
|width=100px|{{#pwImage:Pathway:WP5256|250px||Endothelial cell senescence (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5275|250px||Ether lipid biosynthesis (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4931|250px||Direct Reversal Repair (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5091|250px||Frustrated phagocytosis leading to malignant pleural mesothelioma (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5285|250px||Immune infiltration in pancreatic cancer (Homo sapiens)}}
|}
|}
-
===May 2020===
+
===September 2022===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP4922|250px||Mitochondrial CIV Assembly (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP782|250px||Triacylglyceride synthesis (Gallus gallus)}}
-
|width=100px|{{#pwImage:Pathway:WP4923|250px||Autophagy (Homo sapiens)}}
+
|}
-
|width=100px|{{#pwImage:Pathway:WP4925|250px||Unfolded protein response (Homo sapiens)}}
+
===August 2022===
-
|width=100px|{{#pwImage:Pathway:WP4872|250px||MAP3K1 role in promoting and blocking gonadal determination (Homo sapiens)}}
+
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5231|250px||Hippocampal synaptogenesis and neurogenesis (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5233|250px||Arsenic metabolism and reactive oxygen species generation (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5234|250px||Bardet-Biedl syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5235|250px||Estradiol regulation in Porto-Sinusoidal Vascular Disease (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4918|250px||Cellular Proteostasis (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5238|250px||Cholestasis (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4919|250px||Neuroinflammation (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5265|250px||Neurogenesis regulation in the olfactory epithelium (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4920|250px||Mitochondrial CII Assembly (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5269|250px||Genetic causes of PSVD/INCPH (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4921|250px||Mitochondrial CIII assembly (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5271|250px||Bacterial ceramide synthesis (Caulobacter vibrioides)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4900|250px||Purinergic signaling (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5272|250px||LDL- influence on CD14 and TLR4 (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4905|250px||1q21.1 copy number variation syndrome (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5273|250px||Effect of intestinal microbiome on anticoagulant response of Vitamin K antagonists (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4912|250px||SARS coronavirus and innate immunity (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5274|250px||Farnesyl to CoQ10 metabolism (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4917|250px||Proximal tubule transport (Homo sapiens)}}
+
|}
 +
===July 2022===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5239|250px||Lac-Phe pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5240|250px||Lac-Phe pathway (Mus musculus)}}
 +
|width=100px|{{#pwImage:Pathway:WP5241|250px||Mitochondrial beta oxidation (Homo sapiens)}}
 +
|}
 +
===June 2022===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5221|250px||2q11.2 copy number variation syndrome (Homo sapiens)}}
 +
|}
 +
===May 2022===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP4686|250px||Leucine, isoleucine and valine metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5220|250px||Metabolic reprogramming in pancreatic cancer (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5222|250px||2q13 copy number variation syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5223|250px||2q21.1 copy number variation syndrome (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4814|250px||Somatic Sex determination (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5224|250px||2q37 copy number variation syndrome (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4873|250px||Peroxiredoxin 2 induced ovarian failure (Homo sapiens)}}
+
|}
-
|width=100px|{{#pwImage:Pathway:WP4875|250px||Disruption of postsynaptic signalling by CNV (Homo sapiens)}}
+
===April 2022===
-
|width=100px|{{#pwImage:Pathway:WP4879|250px||Interacting Laminopathic Pathways (Homo sapiens)}}
+
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5154|250px||Docosahexaenoic acid (DHA) oxylipin metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5171|250px||Metabolic pathway leukotriene (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5180|250px||DYRK1A (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5181|250px||Roles of ceramides in the development of insulin resistance (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4835|250px||Peroxiredoxin 2 induced ovarian failure (Mus musculus)}}
+
|width=100px|{{#pwImage:Pathway:WP5182|250px||Pro-survival signaling of neuroprotectin D1 (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4842|250px||Mammalian disorder of sexual development (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5186|250px||Activation of Vitamin K-dependent proteins (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5188|250px||Retinol Metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5190|250px||Creatine Pathway (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5191|250px||ResolvinE1 and ResolvinD1 signaling pathways promoting inflammation resolution (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5192|250px||Modulation of the PI3K-Akt-mTOR signaling by bioactive sphingolipids (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5193|250px||Cholesterol synthesis disorders (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5194|250px||Synthesis of ceramides and 1-deoxyceramides (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5196|250px||N-Glycan biosynthesis (Sheep) (Ovis aries)}}
 +
|width=100px|{{#pwImage:Pathway:WP5199|250px||PtdIns(4,5)P2 in cytokinesis pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5200|250px||Dravet syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5201|250px||Phospholipid biosynthesis (Saccharomyces cerevisiae)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5202|250px||Alstrom syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5205|250px||Clocked controlled autophagy in bone metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5211|250px||Glucose metabolism in triple-negative breast cancer cells (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5213|250px||Amino acid metabolism in triple-negative breast cancer cells (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5218|250px||Extrafollicular B cell activation by SARS-CoV-2 (Homo sapiens)}}
|}
|}
-
===April 2020===
+
===March 2022===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP3890|250px||Nanomaterial-induced Inflammasome Activation (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5130|250px||Th17 cell differentiation pathway (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4466|250px||Oxidative Stress and Redox Pathway (Mus musculus)}}
+
|width=100px|{{#pwImage:Pathway:WP5136|250px||ALA oxylipin metabolism (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4799|250px||Downregulation of ACE2 expression by SARS-CoV infection and SARS-CoV Spike protein. (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5137|250px||Linoleic acid oxylipin metabolism (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4803|250px||Ciliopathies (Homo sapiens))}}
+
|width=100px|{{#pwImage:Pathway:WP5143|250px||GDNF signaling (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4804|250px||Cholesterol Biosynthesis with Skeletal Dysplasias (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5149|250px||Lipid metabolism in senescent cells (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4808|250px||Endochondral Ossification with Skeletal Dysplasias (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5166|250px||Glyoxylate metabolism (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4815|250px||Glycosaminoglycan degradation (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5169|250px||Hemesynthesis defects and porphyrias (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4818|250px||Conversion of Angiotensinogen to Angiotensin II (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5173|250px||Disorders of galactose metabolism (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4820|250px||GDNF/RET signalling axis (Mus musculus)}}
+
|width=100px|{{#pwImage:Pathway:WP5174|250px||Ulcerative colitis signaling (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4823|250px||Genes controlling renal nephrogenesis (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5175|250px||Disorders in ketone body synthesis (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4838|250px||Regucalcin in proximal tubule epithelial kidney cells (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5176|250px||Disorders of bile acid synthesis and biliary transport (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4891|250px||COVID-19 AOP (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5178|250px||Disorders of fructose metabolism (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4856|250px||Intracellular trafficking proteins involved in CMT neuropathy (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5179|250px||Biosynthesis and turnover of 1-deoxy-sphingoid bases (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4860|250px||Hijack of Ubiquitination by SARS-CoV-2 (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5183|250px||SARS-CoV-2 Mediated Endothelial Dysfunction: The Potential Role of Chronic Oxidative Stress in the mitochondria (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4863|250px||Host-pathogen interaction of human corona viruses - autophagy (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5187|250px||mRNA vaccine activation of Dendritic cell and induction of IFN-1 (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4864|250px||Host-pathogen interaction of human corona viruses - apoptosis (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5189|250px||Copper metabolism (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4868|250px||Type I Interferon Induction and Signaling During SARS-CoV-2 Infection (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5195|250px||Disorders in Ketolysis (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4871|250px||Kisspeptin/Kisspeptin Receptor System in the Ovary (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5198|250px||Inflammatory bowel disease signaling (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4876|250px||Activation of NLRP3 Inflammasome by SARS-CoV-2 (Homo sapiens)}}
+
|}
-
|width=100px|{{#pwImage:Pathway:WP4884|250px||Pathogenesis of SARS-CoV-2 Mediated by nsp9/nsp10 Complex (Homo sapiens)}}
+
===January 2022===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP722|250px||Serotonin HTR1 group and FOS pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP2152|250px||BDNF pathway (Mus musculus)}}
 +
|width=100px|{{#pwImage:Pathway:WP2435|250px||Quercetin and Nf-kB / AP-1 induced apoptosis (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP3953|250px||mRNA, protein, and metabolite inducation pathway by cyclosporin A (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP4238|250px||Flavan-3-ol metabolic pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP4316|250px||miRNA degrading enzymes (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP4630|250px||Measles virus infection (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5133|250px||Non-classical role of vitamin D (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4877|250px||Host-pathogen interaction of human corona viruses - MAPK signaling (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5156|250px||SARS-CoV-2 replication organelle formation (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4880|250px||Host-pathogen interaction of human corona viruses - Interferon induction (Homo sapiens)}}
+
|}
|}
-
 
+
===December 2021===
-
===March 2020===
+
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP4941|250px||GPR143 in melanocytes and retinal pigment epithelium cells (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5043|250px||Pentose phosphate pathway in senescent cells (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5070|250px||Salmonella virulence regulatory network (Escherichia coli)}}
 +
|width=100px|{{#pwImage:Pathway:WP5144|250px||NRP1-triggered signaling pathways in pancreatic cancer (Homo sapiens)}}
 +
|}
 +
===September 2021===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5085|250px||Vasopressin-regulated water reabsorption (Homo sapiens)}}
 +
|}
 +
===August 2021===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP4784|250px||Proteoglycan biosynthesis (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5036|250px||Angiotensin II receptor type 1 pathway (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4785|250px||Somitogenesis in the context of spondylocostal dysostosis (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5055|250px||Burn wound healing (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4786|250px||Type I collagen synthesis in the context of Osteogenesis imperfecta (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5056|250px||Burn Wound Healing (Mus musculus)}}
-
|width=100px|{{#pwImage:Pathway:WP4787|250px||Osteoblast differentiation (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5087|250px||Malignant pleural mesothelioma (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4788|250px||Autosomal recessive Osteopetrosis pathways (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5057|250px||Burn wound healing (Rattus norvegicus)}}
-
|width=100px|{{#pwImage:Pathway:WP4789|250px||MED and Pseudoachondroplasia genes (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5089|250px||Kinin-Kallikrein pathway (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4790|250px||FGF23 signalling in Hypophosphatemic rickets (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5115|250px||Network map of SARS-CoV-2 signaling pathway (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4829|250px||mBDNF and proBDNF regulation of GABA neurotransmission (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5118|250px||SMC1/SMC3 role in DNA damage - Cornelia de Lange Syndrome (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4830|250px||GDNF/RET signalling axis (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5088|250px||Prostaglandin signaling (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5094|250px||Orexin receptor pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5095|250px||Overview of proinflammatory and profibrotic mediators (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5097|250px||CCL18 signaling pathway (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5114|250px||Nucleotide excision repair in xeroderma pigmentosum (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5117|250px||Cohesin complex - Cornelia de Lange syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5119|250px||NIPBL role in DNA damage - Cornelia de Lange syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5121|250px||Sphingolipid metabolism in senescence (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5122|250px||Prostaglandin and leukotriene metabolism in senescence (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5128|250px||Fibrin complement receptor 3 signaling pathway (Mus musculus)}}
|}
|}
-
 
+
===July 2021===
-
===February 2020===
+
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP4767|250px||FGFR3 signalling in chondrocyte proliferation and terminal differentiation (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5023|250px||Hypoxia-dependent self-renewal of myoblasts (Mus musculus)}}
-
|width=100px|{{#pwImage:Pathway:WP4792|250px||Purine metabolism (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5024|250px||Hypoxia-dependent proliferation of myoblasts (Mus musculus)}}
-
|width=100px|{{#pwImage:Pathway:WP4701|250px||Monoterpene Biosynthesis Pathway Genes in Mint  (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5025|250px||Hypoxia-dependent differentiation of myoblasts (Mus musculus)}}
 +
|width=100px|{{#pwImage:Pathway:WP5120|250px||Inclusion body myositis (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5108|250px||Familial hyperlipidemia type 1 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5109|250px||Familial hyperlipidemia type 2 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5110|250px||Familial hyperlipidemia type 3 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5111|250px||Familial hyperlipidemia type 4 (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5098|250px||T-cell activation SARS-CoV-2 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5101|250px||Congenital generalized lipodystrophy (CGL) (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5102|250px||Familial partial lipodystrophy (FPLD) (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5103|250px||Progeria-associated lipodystrophy (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5112|250px||Familial hyperlipidemia type 5 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5104|250px||Acquired partial lipodystrophy / Barraquer-Simons syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5113|250px||Antiviral and anti-inflammatory effects of Nrf2 on SARS-CoV-2 pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5124|250px||Alzheimer's disease (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5116|250px||SARS-CoV-2 B.1.1.7 variant antagonises innate immune activation (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5105|250px||Meta pathway lipodystrophy, dyslipidemia and hyperlipidemia (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5092|250px||Interactions of natural killer cells in pancreatic cancer (Homo sapiens)}}
|}
|}
-
===January 2020===
+
===June 2021===
{| style="margin: 10px; background-color:#E4EEF2"
{| style="margin: 10px; background-color:#E4EEF2"
-
|width=100px|{{#pwImage:Pathway:WP4698|250px||Vitamin D-sensitive calcium signaling in depression (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5033|250px||Genes associated with the development of rheumatoid arthritis (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4746|250px||Thyroid hormones production and their peripheral downstream signalling effects regarding congenital hypothyroidism (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5083|250px||Neuroinflammation and glutamatergic signaling (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4747|250px||Netrin-UNC5B signaling Pathway (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP5090|250px||Complement system in neuronal development and plasticity (Homo sapiens)}}
-
|width=100px|{{#pwImage:Pathway:WP4752|250px||Base Excision Repair (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP38|250px||Fatty acid biosynthesis (Caenorhabditis elegans)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4753|250px||Nucleotide Excision Repair (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP810|250px||Hepatocyte growth factor receptor signaling (Gallus gallus)}}
-
|width=100px|{{#pwImage:Pathway:WP4754|250px||IL-18 signaling pathway (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP927|250px||Hepatocyte growth factor receptor signaling (Pan troglodytes)}}
-
|width=100px|{{#pwImage:Pathway:WP4756|250px||Renin Angiotensin Aldosterone System (RAAS) (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP1162|250px||Hepatocyte growth factor receptor signaling (Canis familiaris)}}
-
|width=100px|{{#pwImage:Pathway:WP4760|250px||PKC-gamma calcium signaling pathway in ataxia (Homo sapiens)}}
+
|width=100px|{{#pwImage:Pathway:WP1198|250px||S1P receptor signal transduction (Canis familiaris)}}
 +
|}
 +
===May 2021===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP4688|250px||Serine Metabolism (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5060|250px||Peptidoglycan cytoplasmic synthesis and recycling pathways (Escherichia coli)}}
 +
|width=100px|{{#pwImage:Pathway:WP5066|250px||FOXA2 pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5072|250px||Modulators of TCR signaling and T cell activation (Homo sapiens)}}
|-
|-
-
|width=100px|{{#pwImage:Pathway:WP4763|250px||Regulation of Pgc1a expression by a Gsk3b-Tfeb signaling axis in skeletal muscle (Mus musculus)}}
+
|width=100px|{{#pwImage:Pathway:WP5074|250px||Kallmann's Syndrome (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5061|250px||Fatty acid transporters (Homo sapiens)}}
|}
|}
 +
===April 2021===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP5063|250px||FOXP3 in COVID-19 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5065|250px||SARS-CoV-2 altering angiogenesis via NRP1 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5076|250px||Soluble ACE2-mediated cell entry of SARS-CoV-2 (Homo sapiens)}}
 +
|}
 +
===March 2021===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP2839|250px||Hair Follicle Development: Organogenesis - Part 2 of 3 (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP4010|250px||Liver steatosis AOP (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5027|250px||nsp1 from SARS-CoV-2 inhibits translation initiation in the host cell (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5044|250px||Kynurenine Pathway and links to Cellular Senescence (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5046|250px||NAD Metabolism in Oncogene-Induced Senescence and Mitochondrial Dysfunction-Associated Senescence (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5052|250px||Nephrogenesis (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5053|250px||Development of ureteric collection system (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5064|250px||7-oxo-C and 7beta-HC pathways (Homo sapiens)}}
 +
|}
 +
===February 2021===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP4962|250px||Airway smooth muscle cell contraction (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5038|250px||SARS-CoV-2 mitochondrial interactions (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5039|250px||SARS-CoV-2 Innate Immunity Evasion and Cell-specific immune response (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5049|250px||Glycolysis in senescence (Homo sapiens)}}
 +
|-
 +
|width=100px|{{#pwImage:Pathway:WP5050|250px||TCA cycle in senescence (Homo sapiens)}}
 +
|}
 +
===January 2021===
 +
{| style="margin: 10px; background-color:#E4EEF2"
 +
|width=100px|{{#pwImage:Pathway:WP4317|250px||Mitochondrial fatty acid synthesis pathway (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5030|250px||Ethylmalonic Encephalopathy (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5031|250px||Biotin Metabolism (including IEMs) (Homo sapiens)}}
 +
|width=100px|{{#pwImage:Pathway:WP5037|250px||Riboflavin and CoQ disorders (Homo sapiens)}}
 +
|}
 +
=== Prior Years ===
=== Prior Years ===
-
* [WikiPathways:NewPathwayReleases2019|2019]
+
* [[WikiPathways:NewPathwayReleases2020|2020]]
 +
* [[WikiPathways:NewPathwayReleases2019|2019]]
 +
* [[WikiPathways:NewPathwayReleases2018|2018]]
 +
* [[WikiPathways:NewPathwayReleases2017|2017]]

Current revision

Each month there are new pathways reviewed and approved for the official release of WikiPathways. See the Download Page to access the full collection.

Contents

January 2023

Image does not exist
Response to acute ibuprofen exposure (Daphnia magna)
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Estrogen metabolism (Homo sapiens)
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Ganglio series sphingolipid metabolism (Homo sapiens)
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Lacto series sphingolipid metabolism (Homo sapiens)
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Glucocorticoid biosynthesis (Homo sapiens)
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Lipid remodeling (Anopheles gambiae)
Image does not exist
Glycosphingolipid metabolism (Homo sapiens)
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Steroid hormone precursor biosynthesis (Homo sapiens)
Image does not exist
TROP2 regulatory signaling (Homo sapiens)
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Neolacto series sphingolipid metabolism (Homo sapiens)
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Mineralocorticoid biosynthesis (Homo sapiens)

December 2022

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Extrafollicular and follicular B cell activation by SARS-CoV-2 (Homo sapiens)

November 2022

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T cell modulation in pancreatic cancer (Homo sapiens)
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Arachidonic acid (AA, ARA) oxylipin metabolism (Homo sapiens)
Image does not exist
Markers of kidney cell lineage (Homo sapiens)
Image does not exist
Comprehensive IL-17A signaling pathway (Mus musculus)
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Cell interactions of the pancreatic cancer microenvironment (Homo sapiens)
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17q12 copy number variation syndrome (Homo sapiens)
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Perturbations to host-cell autophagy, induced by SARS-CoV-2 proteins (Homo sapiens)
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Sildenafil treatment (Homo sapiens)

October 2022

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Chronic hyperglycemia impairment of neuron function (Homo sapiens)
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Serotonin reuptake inhibitor response (Daphnia magna)
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Endothelial cell senescence (Homo sapiens)
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Ether lipid biosynthesis (Homo sapiens)
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Frustrated phagocytosis leading to malignant pleural mesothelioma (Homo sapiens)
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Immune infiltration in pancreatic cancer (Homo sapiens)

September 2022

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Triacylglyceride synthesis (Gallus gallus)

August 2022

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Hippocampal synaptogenesis and neurogenesis (Homo sapiens)
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Arsenic metabolism and reactive oxygen species generation (Homo sapiens)
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Bardet-Biedl syndrome (Homo sapiens)
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Estradiol regulation in Porto-Sinusoidal Vascular Disease (Homo sapiens)
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Cholestasis (Homo sapiens)
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Neurogenesis regulation in the olfactory epithelium (Homo sapiens)
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Genetic causes of PSVD/INCPH (Homo sapiens)
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Bacterial ceramide synthesis (Caulobacter vibrioides)
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LDL- influence on CD14 and TLR4 (Homo sapiens)
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Effect of intestinal microbiome on anticoagulant response of Vitamin K antagonists (Homo sapiens)
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Farnesyl to CoQ10 metabolism (Homo sapiens)

July 2022

Image does not exist
Lac-Phe pathway (Homo sapiens)
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Lac-Phe pathway (Mus musculus)
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Mitochondrial beta oxidation (Homo sapiens)

June 2022

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2q11.2 copy number variation syndrome (Homo sapiens)

May 2022

Image does not exist
Leucine, isoleucine and valine metabolism (Homo sapiens)
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Metabolic reprogramming in pancreatic cancer (Homo sapiens)
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2q13 copy number variation syndrome (Homo sapiens)
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2q21.1 copy number variation syndrome (Homo sapiens)
Image does not exist
2q37 copy number variation syndrome (Homo sapiens)

April 2022

Image does not exist
Docosahexaenoic acid (DHA) oxylipin metabolism (Homo sapiens)
Image does not exist
Metabolic pathway leukotriene (Homo sapiens)
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DYRK1A (Homo sapiens)
Image does not exist
Roles of ceramides in the development of insulin resistance (Homo sapiens)
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Pro-survival signaling of neuroprotectin D1 (Homo sapiens)
Image does not exist
Activation of Vitamin K-dependent proteins (Homo sapiens)
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Retinol Metabolism (Homo sapiens)
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Creatine Pathway (Homo sapiens)
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ResolvinE1 and ResolvinD1 signaling pathways promoting inflammation resolution (Homo sapiens)
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Modulation of the PI3K-Akt-mTOR signaling by bioactive sphingolipids (Homo sapiens)
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Cholesterol synthesis disorders (Homo sapiens)
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Synthesis of ceramides and 1-deoxyceramides (Homo sapiens)
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N-Glycan biosynthesis (Sheep) (Ovis aries)
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PtdIns(4,5)P2 in cytokinesis pathway (Homo sapiens)
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Dravet syndrome (Homo sapiens)
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Phospholipid biosynthesis (Saccharomyces cerevisiae)
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Alstrom syndrome (Homo sapiens)
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Clocked controlled autophagy in bone metabolism (Homo sapiens)
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Glucose metabolism in triple-negative breast cancer cells (Homo sapiens)
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Amino acid metabolism in triple-negative breast cancer cells (Homo sapiens)
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Extrafollicular B cell activation by SARS-CoV-2 (Homo sapiens)

March 2022

Image does not exist
Th17 cell differentiation pathway (Homo sapiens)
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ALA oxylipin metabolism (Homo sapiens)
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Linoleic acid oxylipin metabolism (Homo sapiens)
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GDNF signaling (Homo sapiens)
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Lipid metabolism in senescent cells (Homo sapiens)
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Glyoxylate metabolism (Homo sapiens)
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Hemesynthesis defects and porphyrias (Homo sapiens)
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Disorders of galactose metabolism (Homo sapiens)
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Ulcerative colitis signaling (Homo sapiens)
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Disorders in ketone body synthesis (Homo sapiens)
Image does not exist
Disorders of bile acid synthesis and biliary transport (Homo sapiens)
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Disorders of fructose metabolism (Homo sapiens)
Image does not exist
Biosynthesis and turnover of 1-deoxy-sphingoid bases (Homo sapiens)
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SARS-CoV-2 Mediated Endothelial Dysfunction: The Potential Role of Chronic Oxidative Stress in the mitochondria (Homo sapiens)
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mRNA vaccine activation of Dendritic cell and induction of IFN-1 (Homo sapiens)
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Copper metabolism (Homo sapiens)
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Disorders in Ketolysis (Homo sapiens)
Image does not exist
Inflammatory bowel disease signaling (Homo sapiens)

January 2022

Image does not exist
Serotonin HTR1 group and FOS pathway (Homo sapiens)
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BDNF pathway (Mus musculus)
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Quercetin and Nf-kB / AP-1 induced apoptosis (Homo sapiens)
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mRNA, protein, and metabolite inducation pathway by cyclosporin A (Homo sapiens)
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Flavan-3-ol metabolic pathway (Homo sapiens)
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miRNA degrading enzymes (Homo sapiens)
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Measles virus infection (Homo sapiens)
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Non-classical role of vitamin D (Homo sapiens)
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SARS-CoV-2 replication organelle formation (Homo sapiens)

December 2021

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GPR143 in melanocytes and retinal pigment epithelium cells (Homo sapiens)
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Pentose phosphate pathway in senescent cells (Homo sapiens)
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Salmonella virulence regulatory network (Escherichia coli)
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NRP1-triggered signaling pathways in pancreatic cancer (Homo sapiens)

September 2021

Image does not exist
Vasopressin-regulated water reabsorption (Homo sapiens)

August 2021

Image does not exist
Angiotensin II receptor type 1 pathway (Homo sapiens)
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Burn wound healing (Homo sapiens)
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Burn Wound Healing (Mus musculus)
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Malignant pleural mesothelioma (Homo sapiens)
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Burn wound healing (Rattus norvegicus)
Image does not exist
Kinin-Kallikrein pathway (Homo sapiens)
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Network map of SARS-CoV-2 signaling pathway (Homo sapiens)
Image does not exist
SMC1/SMC3 role in DNA damage - Cornelia de Lange Syndrome (Homo sapiens)
Image does not exist
Prostaglandin signaling (Homo sapiens)
Image does not exist
Orexin receptor pathway (Homo sapiens)
Image does not exist
Overview of proinflammatory and profibrotic mediators (Homo sapiens)
Image does not exist
CCL18 signaling pathway (Homo sapiens)
Image does not exist
Nucleotide excision repair in xeroderma pigmentosum (Homo sapiens)
Image does not exist
Cohesin complex - Cornelia de Lange syndrome (Homo sapiens)
Image does not exist
NIPBL role in DNA damage - Cornelia de Lange syndrome (Homo sapiens)
Image does not exist
Sphingolipid metabolism in senescence (Homo sapiens)
Image does not exist
Prostaglandin and leukotriene metabolism in senescence (Homo sapiens)
Image does not exist
Fibrin complement receptor 3 signaling pathway (Mus musculus)

July 2021

Image does not exist
Hypoxia-dependent self-renewal of myoblasts (Mus musculus)
Image does not exist
Hypoxia-dependent proliferation of myoblasts (Mus musculus)
Image does not exist
Hypoxia-dependent differentiation of myoblasts (Mus musculus)
Image does not exist
Inclusion body myositis (Homo sapiens)
Image does not exist
Familial hyperlipidemia type 1 (Homo sapiens)
Image does not exist
Familial hyperlipidemia type 2 (Homo sapiens)
Image does not exist
Familial hyperlipidemia type 3 (Homo sapiens)
Image does not exist
Familial hyperlipidemia type 4 (Homo sapiens)
Image does not exist
T-cell activation SARS-CoV-2 (Homo sapiens)
Image does not exist
Congenital generalized lipodystrophy (CGL) (Homo sapiens)
Image does not exist
Familial partial lipodystrophy (FPLD) (Homo sapiens)
Image does not exist
Progeria-associated lipodystrophy (Homo sapiens)
Image does not exist
Familial hyperlipidemia type 5 (Homo sapiens)
Image does not exist
Acquired partial lipodystrophy / Barraquer-Simons syndrome (Homo sapiens)
Image does not exist
Antiviral and anti-inflammatory effects of Nrf2 on SARS-CoV-2 pathway (Homo sapiens)
Image does not exist
Alzheimer's disease (Homo sapiens)
Image does not exist
SARS-CoV-2 B.1.1.7 variant antagonises innate immune activation (Homo sapiens)
Image does not exist
Meta pathway lipodystrophy, dyslipidemia and hyperlipidemia (Homo sapiens)
Image does not exist
Interactions of natural killer cells in pancreatic cancer (Homo sapiens)

June 2021

Image does not exist
Genes associated with the development of rheumatoid arthritis (Homo sapiens)
Image does not exist
Neuroinflammation and glutamatergic signaling (Homo sapiens)
Image does not exist
Complement system in neuronal development and plasticity (Homo sapiens)
Image does not exist
Fatty acid biosynthesis (Caenorhabditis elegans)
Image does not exist
Hepatocyte growth factor receptor signaling (Gallus gallus)
Image does not exist
Hepatocyte growth factor receptor signaling (Pan troglodytes)
Image does not exist
Hepatocyte growth factor receptor signaling (Canis familiaris)
Image does not exist
S1P receptor signal transduction (Canis familiaris)

May 2021

Image does not exist
Serine Metabolism (Homo sapiens)
Image does not exist
Peptidoglycan cytoplasmic synthesis and recycling pathways (Escherichia coli)
Image does not exist
FOXA2 pathway (Homo sapiens)
Image does not exist
Modulators of TCR signaling and T cell activation (Homo sapiens)
Image does not exist
Kallmann's Syndrome (Homo sapiens)
Image does not exist
Fatty acid transporters (Homo sapiens)

April 2021

Image does not exist
FOXP3 in COVID-19 (Homo sapiens)
Image does not exist
SARS-CoV-2 altering angiogenesis via NRP1 (Homo sapiens)
Image does not exist
Soluble ACE2-mediated cell entry of SARS-CoV-2 (Homo sapiens)

March 2021

Image does not exist
Hair Follicle Development: Organogenesis - Part 2 of 3 (Homo sapiens)
Image does not exist
Liver steatosis AOP (Homo sapiens)
Image does not exist
nsp1 from SARS-CoV-2 inhibits translation initiation in the host cell (Homo sapiens)
Image does not exist
Kynurenine Pathway and links to Cellular Senescence (Homo sapiens)
Image does not exist
NAD Metabolism in Oncogene-Induced Senescence and Mitochondrial Dysfunction-Associated Senescence (Homo sapiens)
Image does not exist
Nephrogenesis (Homo sapiens)
Image does not exist
Development of ureteric collection system (Homo sapiens)
Image does not exist
7-oxo-C and 7beta-HC pathways (Homo sapiens)

February 2021

Image does not exist
Airway smooth muscle cell contraction (Homo sapiens)
Image does not exist
SARS-CoV-2 mitochondrial interactions (Homo sapiens)
Image does not exist
SARS-CoV-2 Innate Immunity Evasion and Cell-specific immune response (Homo sapiens)
Image does not exist
Glycolysis in senescence (Homo sapiens)
Image does not exist
TCA cycle in senescence (Homo sapiens)

January 2021

Image does not exist
Mitochondrial fatty acid synthesis pathway (Homo sapiens)
Image does not exist
Ethylmalonic Encephalopathy (Homo sapiens)
Image does not exist
Biotin Metabolism (including IEMs) (Homo sapiens)
Image does not exist
Riboflavin and CoQ disorders (Homo sapiens)


Prior Years

Retrieved from "https://classic.wikipathways.org/index.php/WikiPathways:NewPathwayReleases"
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