Regroups in situ gene expression patterns allowing users to make queries about mouse developmental gene expression. EMAGE is an online repository that aims to describe gene expression patterns within the developing of mouse embryo and that includes: spatially mapped patterns of messenger RNA (mRNA), in situ hybridization (ISH), protein immunohistochemistry (IHC) and transgenic reporter data.
Provides high-resolution 3D images of the developing peripheral nervous, muscular, vascular, cardiopulmonary, and urogenital systems. The Collection of Immunolabeled Transparent Human Embryos and Fetuses is a molecular embryology database that paves the way for a cellular and molecular reference atlas of human cells, which will be of paramount importance to understanding human development in health and disease.
Contains image and phenotype data for embryonic lethal knockout mice. DMDD is database allowing to search by gene, phenotype or tissue type. The data sheds new light on genes that are critical for embryo development and survival. High-resolution 3D image analysis and tissue histology are used to identify abnormalities in both embryos and placentas from embryonic lethal lines. It provides Full-resolution images, phenotypes annotated on the relevant images and Phenotype penetrance data for each line. The database also includes gene expression profiles for embryos from knockout lines.
A collection of anonymised images and associated clinical data. BRAINS Imagebank includes ‘normal’ individuals at all ages (from prenatal to old age). The data were collected from individuals participating in healthy volunteer studies, or control groups. The imagebank is a searchable database of integrated data sets already collected as part of research studies which include healthy (or control) subjects. New data will be added as they become available. These studies include detailed MRI using a range of sequences, and associated data, e.g. pregnancy details (for neonatal data), demographic details, current and prior socioeconomic status, education, health, medication use and cognitive tests.
Provides a database of embryonic development, stem cell differentiation, regenerative medicine and gene expression. LifeMap Discovery is designed to provide the research community with viable, scalable, and easy to manage data describing cellular and anatomical development. The database is based on systematic gathering, analysis and de novo assimilation of peer reviewed scientific data and data resources describing mouse and human development.
Improves the distribution of human embryological image data. The Multi-Dimensional Human Embryo intends to collect 3D magnetic resonance data of normal human embryos from Carnegie stages 10–23. It produces a series of images of each embryo in three principal imaging planes (transverse, coronal, and sagittal), a series of volume-rendered images to represent surface features of each whole embryo, and a series of images to demonstrate time-lapse growth of the human embryo.
Contains annotated coronal sections captured and annotated for the "Atlas of Mouse Development Supplement with new Coronal Sections". eHistology is an image index that includes annotations made by Professors from the University of Edinburgh.
Provides a molecular atlas of the developing lung. LungMAP includes mouse and human data for cross correlation of developmental processes across species. This online resource is available through a web portal for presentation of results and public sharing of data sets. It establishes a repository of young human lung tissues obtained through organ donor organizations. It also develops a comprehensive lung ontology that incorporates the latest findings of LungMAP consortium. The database contains transcriptomic, proteomic, and lipidomic data sources.
Contains almost 1300 images of human embryos. Kyoto Human Embryo Visualization Project is an online platform allowing user to analyze complex morphogenetic events thanks to a lot of 3D images of embryos. These staged human embryos was digitize by the magnetic resonance (MR) microscope and episcopic fluorescence image capture (EFIC). This online resource can assist in analyzing the complex morphogenetic events and the underlying mechanisms.
Represents an image resource for ascidian development. FABA allows users to understand the embryonic organization at the single cell level. It defines the stages of early embryonic development from fertilization to hatching larva. This database contains information for both z-slice sections and 3D reconstruction images at each time point along the developmental course of the ascidian C. intestinalis.
1 - 2 of 2
0 - 0 of 0