From b233d2287cb867f8b2a746867c537938e7c6a2f8 Mon Sep 17 00:00:00 2001
From: jpaten <jonah@clevercanary.com>
Date: Thu, 16 Jan 2025 23:12:31 -0800
Subject: [PATCH] chore: updated updates page for dcp 44 (#2593)

---
 docs/dcp-updates.mdx | 153 +++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 153 insertions(+)

diff --git a/docs/dcp-updates.mdx b/docs/dcp-updates.mdx
index d46bf5087..f18771e3a 100644
--- a/docs/dcp-updates.mdx
+++ b/docs/dcp-updates.mdx
@@ -7,6 +7,159 @@ title: HCA Data Portal Updates
 
 # HCA Data Portal Platform Updates
 
+## December 01, 2024
+
+### Release Highlights
+In addition to the updates listed below, 137 projects have experienced updates in `data_use_restriction`, `bionetwork` and/or `atlas`. To view a list of which projects had these fields updated, please vist this page.
+
+### New Projects (3)
+1. [Cell type mapping reveals tissue niches and interactions in subcortical multiple sclerosis lesions](https://data.humancellatlas.org/explore/projects/4c8e9d75-d85a-47de-9598-06549cf44b91)
+1. [Defining cellular complexity in human autosomal dominant polycystic kidney disease by multimodal single cell analysis](https://data.humancellatlas.org/explore/projects/9bef1e81-e5d9-4ece-81cb-ab7449232021)
+1. [Molecular Pathways of Colon Inflammation Induced by Cancer Immunotherapy](https://data.humancellatlas.org/explore/projects/3373e59c-525f-4a83-8c9c-d8b280454697)
+
+### Updated projects (3):
+1. [A blood atlas of COVID-19 defines hallmarks of disease severity and specificity](https://data.humancellatlas.org/explore/projects/cdabcf0b-7602-4abf-9afb-3b410e545703)
+1. [A single cell atlas of human cornea that defines its development, limbal progenitor cells and their interactions with the immune cells.](https://data.humancellatlas.org/explore/projects/6ac8e777-f9a0-4288-b5b0-446e8eba3078)
+1. [Asian Immune Diversity Atlas (AIDA): Single-cell analysis of human diversity in circulating immune cells (Japan cells)](https://data.humancellatlas.org/explore/projects/35d5b057-3daf-4ccd-8112-196194598893)
+
+### Projects with updated metadata (137):
+1. [A Human Liver Cell Atlas reveals Heterogeneity and Epithelial Progenitors](https://data.humancellatlas.org/explore/projects/94e4ee09-9b4b-410a-84dc-a751ad36d0df)
+1. [A Protocol for Revealing Oral Neutrophil Heterogeneity by Single-Cell Immune Profiling in Human Saliva](https://data.humancellatlas.org/explore/projects/60ea42e1-af49-42f5-8164-d641fdb696bc)
+1. [A Single-Cell Transcriptome Atlas of the Human Pancreas.](https://data.humancellatlas.org/explore/projects/894ae6ac-5b48-41a8-a72f-315a9b60a62e)
+1. [A Single-Cell Transcriptomic Atlas of Human Skin Aging.](https://data.humancellatlas.org/explore/projects/923d3231-7295-4184-b3f6-c3082766a8c7)
+1. [A Single-Cell Transcriptomic Map of the Human and Mouse Pancreas Reveals Inter- and Intra-cell Population Structure](https://data.humancellatlas.org/explore/projects/f86f1ab4-1fbb-4510-ae35-3ffd752d4dfc)
+1. [A human breast atlas integrating single-cell proteomics and transcriptomics](https://data.humancellatlas.org/explore/projects/9b876d31-0739-4e96-9846-f76e6a427279)
+1. [A human cell atlas of the pressure-induced hypertrophic heart](https://data.humancellatlas.org/explore/projects/902dc043-7091-445c-9442-d72e163b9879)
+1. [A human embryonic limb cell atlas resolved in space and time](https://data.humancellatlas.org/explore/projects/b176d756-62d8-4933-83a4-8b026380262f)
+1. [A human fetal lung cell atlas uncovers proximal-distal gradients of differentiation and key regulators of epithelial fates](https://data.humancellatlas.org/explore/projects/2fe3c60b-ac1a-4c61-9b59-f6556c0fce63)
+1. [A molecular cell atlas of the human lung from single-cell RNA sequencing](https://data.humancellatlas.org/explore/projects/6936da41-3692-46bb-bca1-cd0f507991e9)
+1. [A proximal-to-distal survey of healthy adult human small intestine and colon epithelium by single-cell transcriptomics](https://data.humancellatlas.org/explore/projects/73769e0a-5fcd-41f4-9083-41ae08bfa4c1)
+1. [A single-cell atlas of human teeth](https://data.humancellatlas.org/explore/projects/d3446f0c-30f3-4a12-b7c3-6af877c7bb2d)
+1. [A single-cell regulatory map of postnatal lung alveologenesis in humans and mice](https://data.humancellatlas.org/explore/projects/92afaa56-d501-481e-a027-dddd72212ba8)
+1. [A single-cell transcriptome atlas of the adult human retina](https://data.humancellatlas.org/explore/projects/8185730f-4113-40d3-9cc3-929271784c2b)
+1. [A spatially resolved atlas of the human lung characterizes a gland-associated immune niche](https://data.humancellatlas.org/explore/projects/957261f7-2bd6-4358-a6ed-24ee080d5cfc)
+1. [A transcriptional cross species map of pancreatic islet cells.](https://data.humancellatlas.org/explore/projects/28dd1438-8f40-40d0-8e53-ee3301b66218)
+1. [Activation of CD8+ T Cells in Chronic Obstructive Pulmonary Disease Lung](https://data.humancellatlas.org/explore/projects/e870ab56-3537-4b6d-a66f-534fbf8cc57f)
+1. [An Atlas of Cells in the Human Tonsil](https://data.humancellatlas.org/explore/projects/0cc58d0b-1734-4e1d-9113-b32e52f75e36)
+1. [Anatomically distinct fibroblast subsets determine skin autoimmune patterns.](https://data.humancellatlas.org/explore/projects/69324a96-a68a-4514-bbb4-f8f3ea4bd0f1)
+1. [Anomalous Epithelial Variations and Ectopic Inflammatory Response in Chronic Obstructive Pulmonary Disease](https://data.humancellatlas.org/explore/projects/ad04c8e7-9b7d-4cce-b8e9-01e31da10b94)
+1. [Assessing Cellular and Transcriptional Diversity of Ileal Mucosa Among Treatment-Naïve and Treated Crohn’s Disease](https://data.humancellatlas.org/explore/projects/9dd91b6e-7c62-49d3-a3d4-74f603deffdb)
+1. [COVID-19 immune features revealed by a large-scale single-cell transcriptome atlas.](https://data.humancellatlas.org/explore/projects/5f607e50-ba22-4598-b1e9-f3d9d7a35dcc)
+1. [COVID-19 severity correlates with airway epithelium-immune cell interactions identified by single-cell analysis.](https://data.humancellatlas.org/explore/projects/7ac8822c-4ef0-4194-adf0-74290611b1c6)
+1. [COVID-19 tissue atlases reveal SARS-CoV-2 pathology and cellular targets.](https://data.humancellatlas.org/explore/projects/61515820-5bb8-45d0-8d12-f0850222ecf0)
+1. [Cardiac cell type-specific gene regulatory programs and disease risk association](https://data.humancellatlas.org/explore/projects/87f519b4-8862-41f9-acff-75e823e0e430)
+1. [Cell Atlas of The Human Fovea and Peripheral Retina](https://data.humancellatlas.org/explore/projects/30dc3964-1135-4b56-b393-ce2dcbc6e379)
+1. [Cell Types of the Human Retina and Its Organoids at Single-Cell Resolution](https://data.humancellatlas.org/explore/projects/1dddae6e-3753-48af-b20e-fa22abad125d)
+1. [Cell type-specific and disease-associated eQTL in the human lung](https://data.humancellatlas.org/explore/projects/7bc1f14b-5e64-4c7f-86b0-23596b97e2aa)
+1. [Cell-specific cis-regulatory elements and mechanisms of non-coding genetic disease in human retina and retinal organoids](https://data.humancellatlas.org/explore/projects/aebc99a3-3151-482a-9709-da6802617763)
+1. [Circuits between infected macrophages and T cells in SARS-CoV-2 pneumonia.](https://data.humancellatlas.org/explore/projects/b91c623b-1945-4727-b167-0a93027b0d3f)
+1. [Collagen-producing lung cell atlas identifies multiple subsets with distinct localization and relevance to fibrosis](https://data.humancellatlas.org/explore/projects/1c4cbdd4-33e3-4ded-ab43-5958de817123)
+1. [Colonic single epithelial cell census reveals goblet cell drivers of barrier breakdown in inflammatory bowel disease.](https://data.humancellatlas.org/explore/projects/c893cb57-5c9f-4f26-9312-21b85be84313)
+1. [Combinatorial transcription factor profiles predict mature and functional human islet α and β cells](https://data.humancellatlas.org/explore/projects/daa371e8-1ec3-43ef-924f-896d901eab6f)
+1. [Comprehensive cell atlas of the first-trimester developing human brain](https://data.humancellatlas.org/explore/projects/cbd2911f-252b-4428-abde-69e270aefdfc)
+1. [Defining Transcriptional Signatures of Human Hair Follicle Cell States](https://data.humancellatlas.org/explore/projects/8b9cb6ae-6a43-4e47-b9fb-3df7aeec941f)
+1. [Defining cardiac functional recovery in end-stage heart failure at single-cell resolution.](https://data.humancellatlas.org/explore/projects/c0fecf0b-af86-41b8-ba82-d5fd81b7542a)
+1. [Defining human mesenchymal and epithelial heterogeneity in response to oral inflammatory disease](https://data.humancellatlas.org/explore/projects/783c9952-a4ae-4106-a6ce-56f20ce27f88)
+1. [Detection of infiltrating fibroblasts by single-cell transcriptomics in human kidney allografts](https://data.humancellatlas.org/explore/projects/6e522b93-9b70-4f0c-9990-b9cff721251b)
+1. [Differential pre-malignant programs and microenvironment chart distinct paths to malignancy in human colorectal polyps](https://data.humancellatlas.org/explore/projects/50154d1e-2308-44bf-9608-10c7afaa560b)
+1. [Distinct fibroblast progenitor subpopulation expedites regenerative mucosal healing by immunomodulation](https://data.humancellatlas.org/explore/projects/6836c1e4-906b-4c34-a11c-cb025167896d)
+1. [Generation of human islet cell type-specific identity genesets.](https://data.humancellatlas.org/explore/projects/7a8d45f1-353b-4508-8e89-65a96785b167)
+1. [Genetic ancestry effects on the response to viral infection are pervasive but cell type specific](https://data.humancellatlas.org/explore/projects/c211fd49-d980-4ba1-8c6a-c24254a3cb52)
+1. [Heterogeneity and clonal relationships of adaptive immune cells in ulcerative colitis revealed by single-cell analyses](https://data.humancellatlas.org/explore/projects/23509202-1e3c-4959-8a45-9c5b642a1066)
+1. [High-Resolution Transcriptomic Landscape of the Human Submandibular Gland.](https://data.humancellatlas.org/explore/projects/ccc3b786-1da0-427f-a45f-76306d6143b6)
+1. [Human distal airways contain a multipotent secretory cell that can regenerate alveoli](https://data.humancellatlas.org/explore/projects/5f1a1aee-6c48-4dd4-a2c4-eb4ca6aadf74)
+1. [Human distal lung maps and lineage hierarchies reveal a bipotent progenitor](https://data.humancellatlas.org/explore/projects/e5fe8274-3769-4d7d-aa35-6d33c226ab43)
+1. [Human melanocyte development and melanoma dedifferentiation at single-cell resolution](https://data.humancellatlas.org/explore/projects/a4f154f8-5cc9-40b5-b8d7-af90afce8a8f)
+1. [Human oral mucosa cell atlas reveals a stromal-neutrophil axis regulating tissue immunity](https://data.humancellatlas.org/explore/projects/50151324-f3ed-4358-98af-ec352a940a61)
+1. [Hypertension delays viral clearance and exacerbates airway hyperinflammation in patients with COVID-19](https://data.humancellatlas.org/explore/projects/769a08d1-b8a4-4f1e-95f7-6071a9827555)
+1. [Identification of neural oscillations and epileptiform changes in human brain organoids.](https://data.humancellatlas.org/explore/projects/da77bd06-43ae-4012-a774-e4d62797df51)
+1. [Immune Landscape of Viral- and Carcinogen-Driven Head and Neck Cancer](https://data.humancellatlas.org/explore/projects/3089d311-f9ed-44dd-bb10-397059bad4dc)
+1. [Immune signatures underlying post-acute COVID-19 lung sequelae](https://data.humancellatlas.org/explore/projects/fae72d89-4ac4-4aab-9b93-574775e168d4)
+1. [Immunophenotyping of COVID-19 and influenza highlights the role of type I interferons in development of severe COVID-19](https://data.humancellatlas.org/explore/projects/95f07e6e-6a73-4e1b-a880-c83996b3aa5c)
+1. [Impaired local intrinsic immunity to SARS-CoV-2 infection in severe COVID-19](https://data.humancellatlas.org/explore/projects/111d272b-c25a-49ac-9b25-e062b70d66e0)
+1. [Integrated analysis of multimodal single-cell data](https://data.humancellatlas.org/explore/projects/3ce9ae94-c469-419a-9637-5d138a4e642f)
+1. [Integrated multiomic characterization of congenital heart disease](https://data.humancellatlas.org/explore/projects/c9e83418-a9f0-4ed1-ab4f-56d9513417bf)
+1. [Integration of eQTL and a Single-Cell Atlas in the Human Eye Identifies Causal Genes for Age-Related Macular Degeneration](https://data.humancellatlas.org/explore/projects/e090445c-6971-4212-bc5f-ae4ec3914102)
+1. [Intra- and Inter-cellular Rewiring of the Human Colon during Ulcerative Colitis.](https://data.humancellatlas.org/explore/projects/cd61771b-661a-4e19-b269-6e5d95350de6)
+1. [Lineage recording in human cerebral organoids.](https://data.humancellatlas.org/explore/projects/c4e11369-78d4-4d29-ba8e-b67907c4c65c)
+1. [Local and systemic responses to SARS-CoV-2 infection in children and adults](https://data.humancellatlas.org/explore/projects/1538d572-bcb7-426b-8d2c-84f3a7f87bb0)
+1. [Lung transplantation for patients with severe COVID-19](https://data.humancellatlas.org/explore/projects/5a54c617-0eed-486e-8c1a-8a8041fc1729)
+1. [Mapping the developing human immune system across organs](https://data.humancellatlas.org/explore/projects/fcaa53cd-ba57-4bfe-af9c-eaa958f95c1a)
+1. [Molecular characterization of foveal versus peripheral human retina by single-cell RNA sequencing](https://data.humancellatlas.org/explore/projects/4bec484d-ca7a-47b4-8d48-8830e06ad6db)
+1. [Multimodal mapping of the tumor and peripheral blood immune landscape in human pancreatic cancer](https://data.humancellatlas.org/explore/projects/bcdf233f-9246-4c0c-9843-0514120b7e3a)
+1. [Myofibroblast transcriptome indicates SFRP2hi fibroblast progenitors in systemic sclerosis skin](https://data.humancellatlas.org/explore/projects/7f351a4c-d24c-4fcd-9040-f79071b097d0)
+1. [Neuronal defects in a human cellular model of 22q11.2 deletion syndrome.](https://data.humancellatlas.org/explore/projects/645b20c9-5ed0-4500-86b5-7aef770d010a)
+1. [Phenotype molding of stromal cells in the lung tumor microenvironment](https://data.humancellatlas.org/explore/projects/453d7ee2-319f-496c-9862-99d397870b63)
+1. [Pseudotime Ordering of Single Human β-Cells Reveals States of Insulin Production and Unfolded Protein Response.](https://data.humancellatlas.org/explore/projects/27e2e0ae-5971-4927-aac1-19e81804097b)
+1. [RNA Sequencing of Single Human Islet Cells Reveals Type 2 Diabetes Genes](https://data.humancellatlas.org/explore/projects/7adede6a-0ab7-45e6-9b67-ffe7466bec1f)
+1. [Recruited macrophages elicit atrial fibrillation](https://data.humancellatlas.org/explore/projects/9483c664-d546-4b30-9ba3-efbdbf9290b4)
+1. [Regenerative lineages and immune-mediated pruning in lung cancer metastasis](https://data.humancellatlas.org/explore/projects/bc5512cc-9544-4aa4-8b75-8af445ee2257)
+1. [Resolving the intertwining of inflammation and fibrosis in human heart failure at single-cell level](https://data.humancellatlas.org/explore/projects/065e6c13-ad6b-46a3-8075-c3137eb03068)
+1. [SARS-CoV-2 infection of the oral cavity and saliva.](https://data.humancellatlas.org/explore/projects/dcbb50d1-9acf-4f70-9fda-b1f63a948c49)
+1. [SARS‐CoV‐2 receptor ACE2 and TMPRSS2 are primarily expressed in bronchial transient secretory cells](https://data.humancellatlas.org/explore/projects/58028aa8-0ed2-49ca-b60f-15e2ed5989d5)
+1. [Salivary ZG16B expression loss follows exocrine gland dysfunction related to oral chronic graft-versus-host disease.](https://data.humancellatlas.org/explore/projects/60109425-a6e6-4be1-a3bc-15de680317d4)
+1. [Sex-Specific Control of Human Heart Maturation by the Progesterone Receptor.](https://data.humancellatlas.org/explore/projects/bd400331-54b9-4fcc-bff6-6bb8b079ee1f)
+1. [Single Nucleus RNA-sequencing Reveals Altered Intercellular Communication and Dendritic Cell Activation in Nonobstructive Hypertrophic Cardiomyopathy](https://data.humancellatlas.org/explore/projects/e1fda217-7ee1-4c1a-adfa-648279dafac6)
+1. [Single cell RNA sequencing of human liver reveals distinct intrahepatic macrophage populations](https://data.humancellatlas.org/explore/projects/4d6f6c96-2a83-43d8-8fe1-0f53bffd4674)
+1. [Single cell and lineage tracing studies reveal the impact of CD34+ cells on myocardial fibrosis during heart failure](https://data.humancellatlas.org/explore/projects/86fe0a0c-88b3-4a3e-94a1-6f9feadc401e)
+1. [Single cell profiling of COVID-19 patients: an international data resource from multiple tissues](https://data.humancellatlas.org/explore/projects/2d4d89f2-ebeb-467c-ae60-a3efc5e8d4ba)
+1. [Single cell transcriptional zonation of human psoriasis skin identifies an alternative immunoregulatory axis conducted by skin resident cells](https://data.humancellatlas.org/explore/projects/91674dcf-8641-40e6-978d-c1706feffba8)
+1. [Single cell transcriptomics identifies focal segmental glomerulosclerosis remission endothelial biomarker.](https://data.humancellatlas.org/explore/projects/29b54165-34ee-4da5-b257-b4c1f7343656)
+1. [Single cell transcriptomics of human epidermis identifies basal stem cell transition states.](https://data.humancellatlas.org/explore/projects/66d7d92a-d6c5-492c-815b-f81c7c93c984)
+1. [Single-Cell Analysis of Human Pancreas Reveals Transcriptional Signatures of Aging and Somatic Mutation Patterns](https://data.humancellatlas.org/explore/projects/cddab57b-6868-4be4-806f-395ed9dd635a)
+1. [Single-Cell Heterogeneity Analysis and CRISPR Screen Identify Key β-Cell-Specific Disease Genes](https://data.humancellatlas.org/explore/projects/1c6a960d-52ac-44ea-b728-a59c7ab9dc8e)
+1. [Single-Cell Lymphocyte Heterogeneity in Advanced Cutaneous T-cell Lymphoma Skin Tumors](https://data.humancellatlas.org/explore/projects/990d251f-6dab-4a98-a2b6-6cfe7e4708b9)
+1. [Single-Cell Transcriptome Profiling of Human Pancreatic Islets in Health and Type 2 Diabetes](https://data.humancellatlas.org/explore/projects/ae71be1d-ddd8-4feb-9bed-24c3ddb6e1ad)
+1. [Single-Cell Transcriptomic Profiling of Human Dental Pulp in Sound and Carious Teeth: A Pilot Study](https://data.humancellatlas.org/explore/projects/6f89a7f3-8d4a-4344-aa4f-eccfe7e91076)
+1. [Single-Cell Transcriptomics Reveal Immune Mechanisms of the Onset and Progression of IgA Nephropathy](https://data.humancellatlas.org/explore/projects/2caedc30-c816-4b99-a237-b9f3b458c8e5)
+1. [Single-Cell Transcriptomics of a Human Kidney Allograft Biopsy Specimen Defines a Diverse Inflammatory Response](https://data.humancellatlas.org/explore/projects/027c51c6-0719-469f-a7f5-640fe57cbece)
+1. [Single-Cell Transcriptomics of the Human Endocrine Pancreas](https://data.humancellatlas.org/explore/projects/99101928-d9b1-4aaf-b759-e97958ac7403)
+1. [Single-cell RNA sequencing identifies celltype-specific cis-eQTLs and co-expression QTLs](https://data.humancellatlas.org/explore/projects/40272c3b-4697-4bd4-ba3f-82fa96b9bf71)
+1. [Single-cell RNA sequencing of human kidney](https://data.humancellatlas.org/explore/projects/2ef3655a-973d-4d69-9b41-21fa4041eed7)
+1. [Single-cell RNA sequencing reveals markers of disease progression in primary cutaneous T-cell lymphoma](https://data.humancellatlas.org/explore/projects/6874b7eb-3445-47ec-8773-75141430e169)
+1. [Single-cell analyses of renal cell cancers reveal insights into tumor microenvironment, cell of origin, and therapy response](https://data.humancellatlas.org/explore/projects/7c599029-7a3c-4b5c-8e79-e72c9a9a65fe)
+1. [Single-cell analysis of human B cell maturation predicts how antibody class switching shapes selection dynamics](https://data.humancellatlas.org/explore/projects/24d0dbbc-54eb-4904-8141-934d26f1c936)
+1. [Single-cell analysis of human non-small cell lung cancer lesions refines tumor classification and patient stratification](https://data.humancellatlas.org/explore/projects/b208466a-6fb0-4385-8cfb-8e03ff6b939e)
+1. [Single-cell analysis reveals fibroblast heterogeneity and myofibroblasts in systemic sclerosis-associated interstitial lung disease](https://data.humancellatlas.org/explore/projects/457d0bfe-79e4-43f1-be5d-83bf080d809e)
+1. [Single-cell analysis reveals innate lymphoid cell lineage infidelity in atopic dermatitis](https://data.humancellatlas.org/explore/projects/415eb773-cadb-43d1-ab89-7d160d5cfc7d)
+1. [Single-cell atlas of bronchoalveolar lavage from preschool cystic fibrosis reveals new cell phenotypes](https://data.humancellatlas.org/explore/projects/1eba4d0b-2d15-4ba7-bb3c-d4654dd94519)
+1. [Single-cell eQTL mapping identifies cell type-specific genetic control of autoimmune disease](https://data.humancellatlas.org/explore/projects/f2078d5f-2e7d-4844-8552-f7c41a231e52)
+1. [Single-cell genomics improves the discovery of risk variants and genes of atrial fibrillation](https://data.humancellatlas.org/explore/projects/377c35d1-93bf-470c-8067-08f954b269bd)
+1. [Single-cell landscape of bronchoalveolar immune cells in patients with COVID-19](https://data.humancellatlas.org/explore/projects/08fb10df-32e5-456c-9882-e33fcd49077a)
+1. [Single-cell multi-omics analysis of human pancreatic islets reveals novel cellular states in type 1 diabetes.](https://data.humancellatlas.org/explore/projects/daef3fda-2620-45ae-a3f7-1613814a35bf)
+1. [Single-cell multi-omics analysis of the immune response in COVID-19](https://data.humancellatlas.org/explore/projects/b963bd4b-4bc1-4404-8425-69d74bc636b8)
+1. [Single-cell multiome of the human retina and deep learning nominate causal variants in complex eye diseases](https://data.humancellatlas.org/explore/projects/4f4f0193-ede8-4a82-8cb0-7a0a22f06e63)
+1. [Single-cell profiling of healthy human kidney reveals features of sex-based transcriptional programs and tissue-specific immunity](https://data.humancellatlas.org/explore/projects/77c13c40-a598-4036-807f-be09209ec2dd)
+1. [Single-cell protein activity analysis identifies recurrence-associated renal tumor macrophages.](https://data.humancellatlas.org/explore/projects/95d058bc-9cec-4c88-8d2c-05b4a45bf24f)
+1. [Single-cell sequencing links multiregional immune landscapes and tissue-resident T cells in ccRCC to tumor topology and therapy efficacy.](https://data.humancellatlas.org/explore/projects/12f32054-8f18-4dae-8959-bfce7e3108e7)
+1. [Single-cell sequencing unveils distinct immune microenvironments with CCR6-CCL20 crosstalk in human chronic pancreatitis](https://data.humancellatlas.org/explore/projects/c5ca43aa-3b2b-4216-8eb3-f57adcbc99a1)
+1. [Single-cell transcriptomes from human kidneys reveal the cellular identity of renal tumors.](https://data.humancellatlas.org/explore/projects/d8ae869c-39c2-4cdd-b3fc-2d0d8f60e7b8)
+1. [Single-cell transcriptomes identify human islet cell signatures and reveal cell-type–specific expression changes in type 2 diabetes](https://data.humancellatlas.org/explore/projects/c6ad8f9b-d26a-4811-b2ba-93d487978446)
+1. [Single-cell transcriptomes of the human skin reveal age-related loss of fibroblast priming](https://data.humancellatlas.org/explore/projects/51f02950-ee25-4f4b-8d07-59aa99bb3498)
+1. [Single-cell transcriptomic analysis of gingivo-buccal oral cancer reveals two dominant cellular programs](https://data.humancellatlas.org/explore/projects/46a7e4bf-0474-4a8f-8d18-43afcde90491)
+1. [Single-cell transcriptomic atlas of the human retina identifies cell types associated with age-related macular degeneration](https://data.humancellatlas.org/explore/projects/07d5987e-7f9e-4f34-b0fb-a185a35504f5)
+1. [Single-cell transcriptomics combined with interstitial fluid proteomics defines cell type-specific immune regulation in atopic dermatitis.](https://data.humancellatlas.org/explore/projects/1dd552a5-eb4f-4b92-8088-7224bcbd0629)
+1. [Single-cell transcriptomics of East-Asian pancreatic islets cells](https://data.humancellatlas.org/explore/projects/e77fed30-959d-4fad-bc15-a0a5a85c21d2)
+1. [Single-cell transcriptomics provides insights into hypertrophic cardiomyopathy](https://data.humancellatlas.org/explore/projects/10a845f7-0361-46fa-92a3-2a36483136b1)
+1. [Single-cell transcriptomics reveals cell-type-specific diversification in human heart failure](https://data.humancellatlas.org/explore/projects/135f7f5c-4a85-4bcf-9f7c-4f035ff1e428)
+1. [Single-cell transcriptomics reveals distinct effector profiles of infiltrating T cells in lupus skin and kidney](https://data.humancellatlas.org/explore/projects/cbd3d276-9f24-4af9-8381-b11f6cdbdc4b)
+1. [Single-nucleus RNA sequencing in ischemic cardiomyopathy reveals common transcriptional profile underlying end-stage heart failure.](https://data.humancellatlas.org/explore/projects/c6ef0270-eafc-43bd-8097-c10020a03cfc)
+1. [Single-nucleus RNA sequencing of human pancreatic islets identifies novel gene sets and distinguishes β-cell subpopulations with dynamic transcriptome profiles.](https://data.humancellatlas.org/explore/projects/17cf943b-e247-454f-908b-da58665fcc56)
+1. [Single-nucleus cross-tissue molecular reference maps toward understanding disease gene function.](https://data.humancellatlas.org/explore/projects/31887183-a72c-4308-9eac-c6140313f39c)
+1. [Single-nucleus profiling of human dilated and hypertrophic cardiomyopathy](https://data.humancellatlas.org/explore/projects/85c0d6fa-f117-4d76-b01a-5d5e8f5f9188)
+1. [Spatial multi-omic map of human myocardial infarction](https://data.humancellatlas.org/explore/projects/e9f36305-d857-44a3-93f0-df4e6007dc97)
+1. [Spatial proteogenomics reveals distinct and evolutionarily conserved hepatic macrophage niches](https://data.humancellatlas.org/explore/projects/425c2759-db66-4c93-a358-a562c069b1f1)
+1. [Spatially resolved multiomics of human cardiac niches](https://data.humancellatlas.org/explore/projects/925f9a4c-cac0-444a-ad2c-612656ab3a85)
+1. [Targeting the Immune-Fibrosis Axis in Myocardial Infarction and Heart Failure](https://data.humancellatlas.org/explore/projects/660fc8b5-8fb8-4050-8c57-e6313195bc81)
+1. [The Tabula Sapiens: A multiple-organ, single-cell transcriptomic atlas of humans](https://data.humancellatlas.org/explore/projects/10201832-7c73-4033-9b65-3ef13d81656a)
+1. [The ZIP8/SIRT1 axis regulates alveolar progenitor cell renewal in aging and idiopathic pulmonary fibrosis](https://data.humancellatlas.org/explore/projects/e456c042-f6b6-4cec-a338-1a8ef80bd779)
+1. [The landscape of immune dysregulation in Crohn's disease revealed through single-cell transcriptomic profiling in the ileum and colon](https://data.humancellatlas.org/explore/projects/cae461de-ecbd-482f-a5d4-11d607fc12ba)
+1. [The serine proteases dipeptidyl-peptidase 4 and urokinase are key molecules in human and mouse scar formation](https://data.humancellatlas.org/explore/projects/222a92d5-277b-489c-aad8-a680d1fd2b12)
+1. [Time-resolved systems immunology reveals a late juncture linked to fatal COVID-19.](https://data.humancellatlas.org/explore/projects/ae62bb31-55ca-4127-b0fb-b1771a604645)
+1. [Transcriptional and Cellular Diversity of the Human Heart](https://data.humancellatlas.org/explore/projects/2184e63d-82d8-4ab2-839e-e93f8395f568)
+1. [Transcriptional changes in the mammary gland during lactation revealed by single cell sequencing of cells from human milk](https://data.humancellatlas.org/explore/projects/e956e66a-ac8e-483a-963a-0f92c7e5abfb)
+1. [Transcriptomic Mapping of Human Parotid Gland at Single-Cell Resolution](https://data.humancellatlas.org/explore/projects/750b455a-e3cf-4721-9581-8609a6c9d561)
+1. [scRNA-Seq Reveals New Enteric Nervous System Roles for GDNF, NRTN, and TBX3](https://data.humancellatlas.org/explore/projects/888f1766-4c84-43bb-8717-b5f9d2046097)
 
 ## October 31, 2024