Single-Cell Analysis


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Single-cell RNA sequencing of the adult human kidney transcriptome can provide molecular information about cell-specific responses to environmental variables and disease states. This information can provide a dataset to benchmark human kidney organoids. Discover the latest research on adult kidney organoids at single cell resolution here.
Adult Kidney Organoids at Single Cell Resolution

Single-cell RNA sequencing of the adult human kidney transcriptome can provide molecular information about cell-specific responses to environmental variables and disease states. This information can provide a dataset to benchmark human kidney organoids. Discover the latest research on adult kidney organoids at single cell resolution here.

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The open source software R / Bioconductor is used for statistical analysis and visualization, with continual generation of new analysis packages and updates. Find the latest research on Programming: Bioconductor Software Packages here.
Bioconductor Software Package: Human Cell Atlas
Going Viral

The open source software R / Bioconductor is used for statistical analysis and visualization, with continual generation of new analysis packages and updates. Find the latest research on Programming: Bioconductor Software Packages here.

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Constructing a cell atlas of the human eye will require transcriptomic and histologic analysis over the lifespan. This understanding will aid in the study of development and disease. Find the latest research pertaining to the Cell Atlas of the Human Eye here.
Cell Atlas of the Human Eye

Constructing a cell atlas of the human eye will require transcriptomic and histologic analysis over the lifespan. This understanding will aid in the study of development and disease. Find the latest research pertaining to the Cell Atlas of the Human Eye here.

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Examining the genomics, transcriptomics, proteomics, and metabolomics of the human thymus gland at the single cell level will help build a single cell atlas of this gland, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the thymus gland during development and aging. Discover the latest research on the cell atlas of the human thymus here.
Cell Atlas of the human Thymus: Development & Aging
Going Viral

Examining the genomics, transcriptomics, proteomics, and metabolomics of the human thymus gland at the single cell level will help build a single cell atlas of this gland, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the thymus gland during development and aging. Discover the latest research on the cell atlas of the human thymus here.

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Investigating human cellular proteins through a combination of highly multiplexed imaging and proteomic analyses can help characterize all human cells at the proteomic level. Discover the latest research on deep visual proteomics here.
Deep Visual Proteomics: Image-Guided Cell Characterization

Investigating human cellular proteins through a combination of highly multiplexed imaging and proteomic analyses can help characterize all human cells at the proteomic level. Discover the latest research on deep visual proteomics here.

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Adipose tissue is composed of different cell types including adipocytes and stromal cells. The complex intercellular communication is crucial for growth and survival. Characterization of the transcriptome of adipose tissue will help understand this complex network and the development of disease. Discover the latest research on human adipose tissue communication here.
Human Adipose Tissue Communication
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Adipose tissue is composed of different cell types including adipocytes and stromal cells. The complex intercellular communication is crucial for growth and survival. Characterization of the transcriptome of adipose tissue will help understand this complex network and the development of disease. Discover the latest research on human adipose tissue communication here.

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Examining the genomics, transcriptomics, proteomics, and metabolomics of the human adipose tissues at the single cell level will help build a single cell atlas of these tissues, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease states in which adipose tissues are involved. Disocver the latest research on the human adipose tissue heterogeneity here.
Human Adipose Tissue Heterogeneity
Fast Growing

Examining the genomics, transcriptomics, proteomics, and metabolomics of the human adipose tissues at the single cell level will help build a single cell atlas of these tissues, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease states in which adipose tissues are involved. Disocver the latest research on the human adipose tissue heterogeneity here.

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Single-cell analyses provide a better-resolved picture of complex biological processes and unmask heterogeneity found between cells. Here is the latest research employing single-cell transcriptomics and examining DNA methylomes in brain cells.
Human Brain Cell: Single Cell Transcriptomes & DNA Methylomes
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Single-cell analyses provide a better-resolved picture of complex biological processes and unmask heterogeneity found between cells. Here is the latest research employing single-cell transcriptomics and examining DNA methylomes in brain cells.

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Examining the genomics, transcriptomics, proteomics, and metabolomics of the gut-brain axis at the single cell level will help build a single cell atlas of this axis, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the GI system. Disocver the latest research on the human cell atlas of the gut-brain axis here.
Human Cell Atlas Along the Gut-Brain Axis

Examining the genomics, transcriptomics, proteomics, and metabolomics of the gut-brain axis at the single cell level will help build a single cell atlas of this axis, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the GI system. Disocver the latest research on the human cell atlas of the gut-brain axis here.

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Examining genomics, transcriptomics, proteomics and metabolomics of the female reproductive system at the single cell level will help build a three-dimensional cellular map and insights into the health and disease of the female reproductive system. Discover the latest research on the human cell atlas of the female reproductive system here.
Human Cell Atlas of the Female Reproductive System
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Examining genomics, transcriptomics, proteomics and metabolomics of the female reproductive system at the single cell level will help build a three-dimensional cellular map and insights into the health and disease of the female reproductive system. Discover the latest research on the human cell atlas of the female reproductive system here.

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Establishing the normal range of phenotypic variation within and between individuals requires consideration of contributions from genetics and the environment. Find the latest research on variations in the human immune system here.
Human Immune Variation: Genetic, Gender & Time

Establishing the normal range of phenotypic variation within and between individuals requires consideration of contributions from genetics and the environment. Find the latest research on variations in the human immune system here.

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Examining the genomics, transcriptomics, proteomics and metabolomics of the human kidneys at the single cell level will describe and define the cellular basis of kidney health and disease. Disocver the latest research on human kidney at single cell resolution here.
Human Kidney at Single Cell Resolution
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Examining the genomics, transcriptomics, proteomics and metabolomics of the human kidneys at the single cell level will describe and define the cellular basis of kidney health and disease. Disocver the latest research on human kidney at single cell resolution here.

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Mapping the human liver by combining transcriptomics, spatial organization, and cell-cell interactions will facilitate the study of liver disease and the development of novel therapeutics. This feed includes new research on analysis of the human liver.
Human Liver Diversity Over a Lifespan

Mapping the human liver by combining transcriptomics, spatial organization, and cell-cell interactions will facilitate the study of liver disease and the development of novel therapeutics. This feed includes new research on analysis of the human liver.

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Examining the genomics, transcriptomics, proteomics, and metabolomics of the human lung at the single cell level will help build a single cell atlas of the lungs, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the lungs. Discover the latest research on the human cell lung atlas here.
Human Lung Cell Atlas
Fast Growing

Examining the genomics, transcriptomics, proteomics, and metabolomics of the human lung at the single cell level will help build a single cell atlas of the lungs, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the lungs. Discover the latest research on the human cell lung atlas here.

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The Human Tumor Atlas is a collaborative project that uses detailed maps of a variety of cancers to investigate cancer development, metastasis, and treatments.
Human Tumor Atlas
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The Human Tumor Atlas is a collaborative project that uses detailed maps of a variety of cancers to investigate cancer development, metastasis, and treatments.

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Examining the genomics, transcriptomics, proteomics and metabolomics of the human vascular endothelial cells at the single cell level will help build a single cell atlas of human vascular endothelium, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues and insights into how changes in the map underlie health and disease of the vascular endothelium from young to old age. Disocver the latest research on the single cell atlas of human vascular endothelial cell atlas here.
Human Vascular Endothelial Cell Atlas: Young & Old
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Examining the genomics, transcriptomics, proteomics and metabolomics of the human vascular endothelial cells at the single cell level will help build a single cell atlas of human vascular endothelium, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues and insights into how changes in the map underlie health and disease of the vascular endothelium from young to old age. Disocver the latest research on the single cell atlas of human vascular endothelial cell atlas here.

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Generating an atlas of immune cells in Asian populations will facilitate the study of the immune system between different ethnic groups and permit the use of common controls to minimize technical artifacts. Find research on five major Asian population groups (Chinese, Japanese, Korean, Indian, and Malay) here.
Immune Cell Atlas In Ethnically Diverse Asians
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Generating an atlas of immune cells in Asian populations will facilitate the study of the immune system between different ethnic groups and permit the use of common controls to minimize technical artifacts. Find research on five major Asian population groups (Chinese, Japanese, Korean, Indian, and Malay) here.

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Generating an atlas of African immune cell types will facilitate the study of the immune system between different ethnic groups and permit the use of common controls to minimize technical artifacts. Find research on immune cells of ethnically diverse African populations here.
Immune Cell Atlas in Ethnically Diverse Africans

Generating an atlas of African immune cell types will facilitate the study of the immune system between different ethnic groups and permit the use of common controls to minimize technical artifacts. Find research on immune cells of ethnically diverse African populations here.

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The immune repertoire, is defined as, the number of different sub-types an organism's immune system makes, of any of the 6 key types of protein, either immunoglobulin or T cell receptor. Here is the latest research on Immune Repertoire Sequencing.
Immune Repertoire Sequencing
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The immune repertoire, is defined as, the number of different sub-types an organism's immune system makes, of any of the 6 key types of protein, either immunoglobulin or T cell receptor. Here is the latest research on Immune Repertoire Sequencing.

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Mapping the human immune system spatially, within and between tissues, will provide the basis for studying mechanisms of tissue residency and the effects of aging. Find new research on analysis of the immune system by multiple approaches here.
Immune System in Humans: Tissues & Ages

Mapping the human immune system spatially, within and between tissues, will provide the basis for studying mechanisms of tissue residency and the effects of aging. Find new research on analysis of the immune system by multiple approaches here.

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Lymph nodes are part of the immune system and are spread throughout the body, draining lymph from various organs. Generating a spatial atlas of healthy human lymph nodes through single cell transcriptomics will gain insight into their complex biology. Discover the latest research on inferring cell interactions in human lymph nodes here.
Inferring Cell Interactions: Human Lymph Nodes
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Lymph nodes are part of the immune system and are spread throughout the body, draining lymph from various organs. Generating a spatial atlas of healthy human lymph nodes through single cell transcriptomics will gain insight into their complex biology. Discover the latest research on inferring cell interactions in human lymph nodes here.

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The transcriptome and proteome of the human male testis is being mapped to better understand its molecular functioning and disease pathology. Using methods such as mass spectrometry, FISH, and RNA sequencing, the human testis can be mapped successfully. Discover the latest research on mapping the transcriptome and proteome of the human testis here.
Mapping the Transcriptome & Proteome of Testis

The transcriptome and proteome of the human male testis is being mapped to better understand its molecular functioning and disease pathology. Using methods such as mass spectrometry, FISH, and RNA sequencing, the human testis can be mapped successfully. Discover the latest research on mapping the transcriptome and proteome of the human testis here.

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Oligodendroglia or oligodendrocytes function as support cells for axons. Understanding the heterogeneity of these cells during development and adulthood using single-cell RNA-seq and ATAC-seq can provide insight into pathogenic processes. Discover the latest research on oligodendroglia heterogeneity in the human brain here.
Oligodendroglia Heterogeneity in the Human Brain

Oligodendroglia or oligodendrocytes function as support cells for axons. Understanding the heterogeneity of these cells during development and adulthood using single-cell RNA-seq and ATAC-seq can provide insight into pathogenic processes. Discover the latest research on oligodendroglia heterogeneity in the human brain here.

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Fetal DNA sequencing improves the accuracy of prenatal screening tests for genetic conditions and at times has led to the diagnosis of maternal conditions that may have otherwise gone undetected. Here is the latest research on Prenatal Sequencing.
Prenatal Sequencing
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Fetal DNA sequencing improves the accuracy of prenatal screening tests for genetic conditions and at times has led to the diagnosis of maternal conditions that may have otherwise gone undetected. Here is the latest research on Prenatal Sequencing.

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Single-Cell Analysis is the study of genomics, transcriptomics, proteomics and metabolomics at the single cell level. Due to the heterogeneity seen in both eukaryotic and prokaryotic cell populations, analyzing a single cell makes it possible to discover mechanisms not seen when studying a bulk population of cells. Here is the latest research on Single-Cell Analysis.
Single Cell Analysis
Fast Growing

Single-Cell Analysis is the study of genomics, transcriptomics, proteomics and metabolomics at the single cell level. Due to the heterogeneity seen in both eukaryotic and prokaryotic cell populations, analyzing a single cell makes it possible to discover mechanisms not seen when studying a bulk population of cells. Here is the latest research on Single-Cell Analysis.

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Examining genomics, transcriptomics, proteomics and metabolomics data of the human spinal cord at the single cell level will help build a single cell atlas of that system and give insights into the health and disease of the spinal cord. Discover the latest research on the single cell atlas of the human spinal cord here.
Single Cell Atlas of the Human Spinal Cord

Examining genomics, transcriptomics, proteomics and metabolomics data of the human spinal cord at the single cell level will help build a single cell atlas of that system and give insights into the health and disease of the spinal cord. Discover the latest research on the single cell atlas of the human spinal cord here.

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Examining the spatial arrangement of cell types in the retina and performing single cell analyses on these cell types will integrate information on the biology of these cells and development of disease. Discover the latest research pertaining to the Cell Atlas of the Neural Retina here.
Single Cell Atlas of the Neural Retina

Examining the spatial arrangement of cell types in the retina and performing single cell analyses on these cell types will integrate information on the biology of these cells and development of disease. Discover the latest research pertaining to the Cell Atlas of the Neural Retina here.

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The novel CUT&Tag technique has the potential to allow single cell profiling of chromatin accessibility, histones, and TFs. This will provide novel insight into cellular heterogeneity and cell states. Discover the latest research on single cell chromatin profiling here.
Single Cell Chromatin Profiling
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The novel CUT&Tag technique has the potential to allow single cell profiling of chromatin accessibility, histones, and TFs. This will provide novel insight into cellular heterogeneity and cell states. Discover the latest research on single cell chromatin profiling here.

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Single-cell analysis of breast tissue is being performed for women of different ethnicities. Women of African, Asian, European, and Latina ancestry are being evaluated using RNA sequencing techniques and gene profiling to create a map of breast tissue data. Discover the latest research on single-cell mapping of breast tissue for ethnic groups here.
Single Cell Map of Breast of Different Ethnicities

Single-cell analysis of breast tissue is being performed for women of different ethnicities. Women of African, Asian, European, and Latina ancestry are being evaluated using RNA sequencing techniques and gene profiling to create a map of breast tissue data. Discover the latest research on single-cell mapping of breast tissue for ethnic groups here.

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Examining the genomics, transcriptomics, proteomics, and metabolomics of the human breast at the single cell level will help build a single cell atlas of breast, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the breast. Disocver the latest research on the single cell resolution of the human breast here.
Single Cell Resolution of Human Breast Cell

Examining the genomics, transcriptomics, proteomics, and metabolomics of the human breast at the single cell level will help build a single cell atlas of breast, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues, and insights into how changes in the map underlie health and disease of the breast. Disocver the latest research on the single cell resolution of the human breast here.

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The vascular system is complex and comprised of various different cells types. This feed focuses on articles examining the human vasculature at the single cell level. Here is the latest research.
Single Cell of the Human Vasculature
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The vascular system is complex and comprised of various different cells types. This feed focuses on articles examining the human vasculature at the single cell level. Here is the latest research.

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Examining the genomics, transcriptomics, proteomics and metabolomics of the human heart at the single cell level will help build a single cell atlas of heart, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues and insights into how changes in the map underlie health and disease of the heart. Disocver the latest research on the single cell atlas of the human heart here.
Single-Cell Atlas of the Adult Human Heart.

Examining the genomics, transcriptomics, proteomics and metabolomics of the human heart at the single cell level will help build a single cell atlas of heart, which would give a unique ID card for each cell type, a three-dimensional map of how cell types work together to form tissues and insights into how changes in the map underlie health and disease of the heart. Disocver the latest research on the single cell atlas of the human heart here.

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Mapping bone marrow hematopoiesis by combining transcriptomics and imaging techniques will facilitate the study of hematopoietic disease and the development of novel therapeutics. This feed includes new research on analysis of the bone marrow hematopoiesis by multiple approaches.
Spatial & Lineage Atlas of Bone Marrow Hematopoiesis
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Mapping bone marrow hematopoiesis by combining transcriptomics and imaging techniques will facilitate the study of hematopoietic disease and the development of novel therapeutics. This feed includes new research on analysis of the bone marrow hematopoiesis by multiple approaches.

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The aim of the Spatiotemporal Multi-Organ Developmental Map Project is to build an atlas of an individual’s organ development program by applying single cell sequencing and 4i spatial maps to primary tissue and matched iPSC-derived organoids. Find the latest research pertaining to these techniques here.
Spatiotemporal Multi-Organ Developmental Maps
Fast Growing

The aim of the Spatiotemporal Multi-Organ Developmental Map Project is to build an atlas of an individual’s organ development program by applying single cell sequencing and 4i spatial maps to primary tissue and matched iPSC-derived organoids. Find the latest research pertaining to these techniques here.

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Tendons are rich in the extracellular matrix and are abundant throughout the body providing essential roles including structure and mobility. The transcriptome of tendons is being compiled to understand the micro-anatomical functioning of tendons. Discover the latest research pertaining to the Tendon Seed Network here.
The Tendon Seed Network
Influential

Tendons are rich in the extracellular matrix and are abundant throughout the body providing essential roles including structure and mobility. The transcriptome of tendons is being compiled to understand the micro-anatomical functioning of tendons. Discover the latest research pertaining to the Tendon Seed Network here.

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