scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.YDBIO.2018.03.020 |
P1325 | external data available at URL | https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE109404 |
P932 | PMC publication ID | 5940526 |
P698 | PubMed publication ID | 29596840 |
P2093 | author name string | S Steven Potter | |
Mike Adam | |||
Robert Mahoney | |||
Bliss Magella | |||
P2860 | cites work | Functional demarcation of active and silent chromatin domains in human HOX loci by noncoding RNAs | Q24673619 |
Distinct roles and regulations for HoxD genes in metanephric kidney development | Q27314653 | ||
Yap- and Cdc42-dependent nephrogenesis and morphogenesis during mouse kidney development | Q27323992 | ||
Hox10 genes function in kidney development in the differentiation and integration of the cortical stroma | Q27324420 | ||
Wnt5a Deficiency Leads to Anomalies in Ureteric Tree Development, Tubular Epithelial Cell Organization and Basement Membrane Integrity Pointing to a Role in Kidney Collecting Duct Patterning | Q27329684 | ||
Development of the Mammalian Kidney | Q28069920 | ||
Hox10 and Hox11 genes are required to globally pattern the mammalian skeleton | Q28188034 | ||
Functional specificity of the Hoxa13 homeobox | Q28203116 | ||
Essential role of stromal mesenchyme in kidney morphogenesis revealed by targeted disruption of Winged Helix transcription factor BF-2 | Q28504535 | ||
Axial homeosis and appendicular skeleton defects in mice with a targeted disruption of hoxd-11 | Q28504808 | ||
Hox patterning of the vertebrate rib cage | Q28508110 | ||
Absence of radius and ulna in mice lacking hoxa-11 andhoxd-11 | Q28509169 | ||
Stromal Fat4 acts non-autonomously with Dchs1/2 to restrict the nephron progenitor pool | Q28509656 | ||
Hoxa11 and Hoxd11 regulate branching morphogenesis of the ureteric bud in the developing kidney | Q28510980 | ||
Recombineering-based dissection of flanking and paralogous Hox gene functions in mouse reproductive tracts | Q28513951 | ||
Six2 is required for suppression of nephrogenesis and progenitor renewal in the developing kidney | Q28586205 | ||
Functional comparison of the Hoxa 4, Hoxa 10, and Hoxa 11 homeoboxes | Q28586581 | ||
Hox11 paralogous genes are essential for metanephric kidney induction | Q28587041 | ||
A Hox-Eya-Pax complex regulates early kidney developmental gene expression | Q28587284 | ||
Compound mutants for the paralogous hoxa-4, hoxb-4, and hoxd-4 genes show more complete homeotic transformations and a dose-dependent increase in the number of vertebrae transformed | Q28591222 | ||
Stromal-epithelial crosstalk regulates kidney progenitor cell differentiation | Q28592110 | ||
Six2 defines and regulates a multipotent self-renewing nephron progenitor population throughout mammalian kidney development | Q28592487 | ||
p21 is a transcriptional target of HOXA10 in differentiating myelomonocytic cells | Q29540855 | ||
A gene complex controlling segmentation in Drosophila | Q29547506 | ||
Patterning a complex organ: branching morphogenesis and nephron segmentation in kidney development | Q33904019 | ||
Single-cell phenotyping within transparent intact tissue through whole-body clearing | Q34127451 | ||
Redesigning the body plan of Drosophila by ectopic expression of the homoeotic gene Antennapedia | Q34191812 | ||
Single cell dissection of early kidney development: multilineage priming | Q34341652 | ||
Altered segmental identity and abnormal migration of motor neurons in mice lacking Hoxb-1. | Q34411125 | ||
Axial Hox9 activity establishes the posterior field in the developing forelimb | Q34720753 | ||
Beyond homeosis--HOX function in morphogenesis and organogenesis | Q35594474 | ||
Key pathways regulated by HoxA9,10,11/HoxD9,10,11 during limb development | Q35695329 | ||
Fate mapping using Cited1-CreERT2 mice demonstrates that the cap mesenchyme contains self-renewing progenitor cells and gives rise exclusively to nephronic epithelia. | Q37235452 | ||
The long-term label retaining population of the renal papilla arises through divergent regional growth of the kidney | Q37337360 | ||
FOXD1 promotes nephron progenitor differentiation by repressing decorin in the embryonic kidney | Q37398464 | ||
Repression of Interstitial Identity in Nephron Progenitor Cells by Pax2 Establishes the Nephron-Interstitium Boundary during Kidney Development | Q38768831 | ||
Functional cooperation between the non-paralogous genes Hoxa-10 and Hoxd-11 in the developing forelimb and axial skeleton | Q39421402 | ||
Cessation of renal morphogenesis in mice | Q40007459 | ||
Enforced expression of HOXB7 promotes hematopoietic stem cell proliferation and myeloid-restricted progenitor differentiation | Q40959985 | ||
Psychrophilic proteases dramatically reduce single-cell RNA-seq artifacts: a molecular atlas of kidney development | Q42777518 | ||
The Drosophila Hox gene deformed sculpts head morphology via direct regulation of the apoptosis activator reaper | Q43651279 | ||
Global quantification of tissue dynamics in the developing mouse kidney | Q46360772 | ||
Overlapping roles of two Hox genes and the exd ortholog ceh-20 in diversification of the C. elegans postembryonic mesoderm. | Q47069324 | ||
Heart tube patterning in Drosophila requires integration of axial and segmental information provided by the Bithorax Complex genes and hedgehog signaling | Q47072704 | ||
Atlas of Hox gene expression in the developing kidney | Q47887133 | ||
Cross-platform single cell analysis of kidney development shows stromal cells express Gdnf | Q48587884 | ||
Hox proteins mediate developmental and environmental control of autophagy. | Q50698439 | ||
Characterization of Hoxa-10/Hoxa-11 transheterozygotes reveals functional redundancy and regulatory interactions. | Q52166288 | ||
Homeotic transformations and limb defects in Hox A11 mutant mice. | Q52221559 | ||
Homeotic transformations of murine vertebrae and concomitant alteration of Hox codes induced by retinoic acid | Q68317251 | ||
Ectopic Hoxa-1 induces rhombomere transformation in mouse hindbrain | Q72796034 | ||
Hox C cluster genes are dispensable for overall body plan of mouse embryonic development | Q73642064 | ||
P4510 | describes a project that uses | kidney | Q9377 |
Drop-seq | Q104519514 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | single cell transcriptomics | Q105406038 |
P1104 | number of pages | 10 | |
P304 | page(s) | 84-93 | |
P577 | publication date | 2018-03-26 | |
P1433 | published in | Developmental Biology | Q3025402 |
P1476 | title | Reduced Abd-B Hox function during kidney development results in lineage infidelity | |
P478 | volume | 438 |
Q60300471 | Homeogene emx1 is required for nephron distal segment development in zebrafish | cites work | P2860 |
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