| scholarly article | Q13442814 |
| P2093 | author name string | K. Nakamura | |
| Y. Matsumoto | |||
| A. Sato | |||
| D. J. Gilbert | |||
| D. L. Lacey | |||
| K. Nakao | |||
| M. Asashima | |||
| M. Katsuki | |||
| N. A. Jenkins | |||
| N. G. Copeland | |||
| R. Nishinakamura | |||
| S. Scully | |||
| T. Yokota | |||
| P433 | issue | 16 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Sal-like protein 1 | Q21989112 |
| P304 | page(s) | 3105–3115 | |
| P577 | publication date | 2001-08-01 | |
| P1433 | published in | Development | Q3025404 |
| P1476 | title | Murine homolog of SALL1 is essential for ureteric bud invasion in kidney development | |
| P478 | volume | 128 |
| Q33588627 | A novel SALL4/OCT4 transcriptional feedback network for pluripotency of embryonic stem cells |
| Q38536413 | A regulatory program for excretory system regeneration in planarians |
| Q37424512 | Advances in early kidney specification, development and patterning |
| Q64929729 | Anephrogenic phenotype induced by SALL1 gene knockout in pigs. |
| Q37113335 | Application of regenerative medicine for kidney diseases |
| Q38818046 | Bim gene dosage is critical in modulating nephron progenitor survival in the absence of microRNAs during kidney development |
| Q37555042 | Cell and molecular biology of kidney development |
| Q31024355 | Characterizing embryonic gene expression patterns in the mouse using nonredundant sequence-based selection |
| Q87944064 | Clinically diverse phenotypes and genotypes of patients with branchio-oto-renal syndrome |
| Q92297393 | Compensation of Disabled Organogeneses in Genetically Modified Pig Fetuses by Blastocyst Complementation |
| Q37774975 | Concise review: Kidney stem/progenitor cells: differentiate, sort out, or reprogram? |
| Q49959878 | Conserved and Divergent Features of Mesenchymal Progenitor Cell Types within the Cortical Nephrogenic Niche of the Human and Mouse Kidney |
| Q55140304 | Constitutive metanephric mesenchyme-specific expression of interferon-gamma causes renal dysplasia by regulating Sall1 expression. |
| Q35294035 | Defining and redefining the nephron progenitor population |
| Q36741767 | Delayed diagnosis of Townes-Brocks syndrome with multicystic kidneys and renal failure caused by a novel SALL1 nonsense mutation: A case report. |
| Q34541787 | Determination of the connectivity of newborn neurons in mammalian olfactory circuits |
| Q39242443 | Development and Diseases of the Collecting Duct System. |
| Q64984008 | Developmental pathology of congenital kidney and urinary tract anomalies. |
| Q37655968 | Dicer function is required in the metanephric mesenchyme for early kidney development |
| Q36597449 | Differential regulation of mouse and human nephron progenitors by the Six family of transcriptional regulators |
| Q30502018 | Drosophila spalt/spalt-related mutants exhibit Townes-Brocks' syndrome phenotypes |
| Q35206497 | Establishment of a proteome profile and identification of molecular markers for mouse spermatogonial stem cells |
| Q41532657 | Evidence for intermediate mesoderm and kidney progenitor cell specification by Pax2 and PTIP dependent mechanisms |
| Q51870884 | Expression of metanephric nephron-patterning genes in differentiating mesonephric tubules. |
| Q47565311 | Expression of three spalt (sal) gene homologues in zebrafish embryos |
| Q28504972 | Eya 1 acts as a critical regulator for specifying the metanephric mesenchyme |
| Q92252674 | FAT4 Fine-Tunes Kidney Development by Regulating RET Signaling |
| Q35534606 | FGF/EGF signaling regulates the renewal of early nephron progenitors during embryonic development |
| Q37235452 | Fate mapping using Cited1-CreERT2 mice demonstrates that the cap mesenchyme contains self-renewing progenitor cells and gives rise exclusively to nephronic epithelia. |
| Q30500205 | Fgfr1 and the IIIc isoform of Fgfr2 play critical roles in the metanephric mesenchyme mediating early inductive events in kidney development. |
| Q37089627 | Fras1, a basement membrane-associated protein mutated in Fraser syndrome, mediates both the initiation of the mammalian kidney and the integrity of renal glomeruli |
| Q27005836 | Functional anatomy of distant-acting mammalian enhancers |
| Q24685187 | Gene expression in Wilms' tumor mimics the earliest committed stage in the metanephric mesenchymal-epithelial transition |
| Q61799379 | Generation of pluripotent stem cell-derived mouse kidneys in Sall1-targeted anephric rats |
| Q37351552 | Genetic and developmental basis for urinary tract obstruction |
| Q36013624 | Genetic approaches to human renal agenesis/hypoplasia and dysplasia |
| Q52096291 | Genetic determination of nephrogenesis: the Pax/Eya/Six gene network. |
| Q33714250 | Genomic characterization of Wilms' tumor suppressor 1 targets in nephron progenitor cells during kidney development. |
| Q47411095 | Hearing loss and renal syndromes |
| Q34668047 | High expression of KIF26B in breast cancer associates with poor prognosis |
| Q37132008 | Homozygous SALL1 mutation causes a novel multiple congenital anomaly-mental retardation syndrome |
| Q37873402 | Hox genes and kidney development |
| Q27324420 | Hox10 genes function in kidney development in the differentiation and integration of the cortical stroma |
| Q36967093 | Hoxd11 specifies a program of metanephric kidney development within the intermediate mesoderm of the mouse embryo. |
| Q37517229 | Hypothesis: a new role for the Renin-Angiotensin system in ureteric bud branching |
| Q37330869 | Identification of two novel CAKUT-causing genes by massively parallel exon resequencing of candidate genes in patients with unilateral renal agenesis |
| Q38384939 | In Vitro organogenesis using amphibian pluripotent cells |
| Q37768900 | In vitro organogenesis using multipotent cells |
| Q38730255 | Induction of nephron progenitors and glomeruli from human pluripotent stem cells. |
| Q35269248 | Infant sex-specific placental cadmium and DNA methylation associations |
| Q38714826 | Interspecies chimeric complementation for the generation of functional human tissues and organs in large animal hosts |
| Q27013996 | Kidney regeneration: common themes from the embryo to the adult |
| Q28593385 | Kif26b, a kinesin family gene, regulates adhesion of the embryonic kidney mesenchyme |
| Q36701407 | Loss of the Sall3 gene leads to palate deficiency, abnormalities in cranial nerves, and perinatal lethality |
| Q27000375 | Lower urinary tract development and disease |
| Q38260184 | Mdm2 is required for maintenance of the nephrogenic niche |
| Q36706151 | Mi-2/NuRD is required in renal progenitor cells during embryonic kidney development |
| Q38527816 | Microglia Versus Myeloid Cell Nomenclature during Brain Inflammation |
| Q37700522 | Midline-derived Shh regulates mesonephric tubule formation through the paraxial mesoderm. |
| Q52592845 | Molecular, phylogenetic and developmental analyses of Sall proteins in bilaterians. |
| Q24319044 | Mutation of SALL2 causes recessive ocular coloboma in humans and mice |
| Q24676719 | Mutations at the SALL4 locus on chromosome 20 result in a range of clinically overlapping phenotypes, including Okihiro syndrome, Holt-Oram syndrome, acro-renal-ocular syndrome, and patients previously reported to represent thalidomide embryopathy |
| Q39107139 | Nephron number, hypertension, and CKD: physiological and genetic insight from humans and animal models |
| Q37845211 | Nephron progenitors in the metanephric mesenchyme |
| Q35550592 | Nonmuscle Myosin II Regulates the Morphogenesis of Metanephric Mesenchyme-Derived Immature Nephrons |
| Q40404328 | Notch2 activation in the embryonic kidney depletes nephron progenitors |
| Q28512164 | Odd-skipped related 1 (Odd 1) is an essential regulator of heart and urogenital development |
| Q34569336 | Oligosyndactylism mice have an inversion of chromosome 8. |
| Q26822965 | Organ In Vitro Culture: What Have We Learned about Early Kidney Development? |
| Q37115114 | Osr1 Interacts Synergistically with Wt1 to Regulate Kidney Organogenesis |
| Q40972000 | PAX2 is dispensable for in vitro nephron formation from human induced pluripotent stem cells. |
| Q28506566 | Phosphorylation of Kif26b promotes its polyubiquitination and subsequent proteasomal degradation during kidney development |
| Q37494655 | Prematurity in mice leads to reduction in nephron number, hypertension, and proteinuria |
| Q38070917 | Progenitor programming in mammalian nephrogenesis |
| Q36105769 | RNA-Seq defines novel genes, RNA processing patterns and enhancer maps for the early stages of nephrogenesis: Hox supergenes |
| Q34010252 | Refining transcriptional programs in kidney development by integration of deep RNA-sequencing and array-based spatial profiling |
| Q64939575 | Regenerative Medicine, Disease Modeling, and Drug Discovery in Human Pluripotent Stem Cell-derived Kidney Tissue. |
| Q35241470 | Region-specific regulation of cell proliferation by FGF receptor signaling during the Wolffian duct development. |
| Q35058034 | Renal anomalies associated with ectopic neurohypophysis |
| Q38724083 | Renal dysplasia in the neonate |
| Q61813059 | Replisome Dynamics and Their Functional Relevance upon DNA Damage through the PCNA Interactome |
| Q38988843 | Role of Wnt5a-Ror2 signaling in morphogenesis of the metanephric mesenchyme during ureteric budding |
| Q50300080 | SALL1 expression in acute myeloid leukemia. |
| Q24685799 | SALL4, a novel oncogene, is constitutively expressed in human acute myeloid leukemia (AML) and induces AML in transgenic mice |
| Q28509027 | Sall genes regulate region-specific morphogenesis in the mouse limb by modulating Hox activities |
| Q28592145 | Sall1 Regulates Embryonic Stem Cell Differentiation in Association with Nanog |
| Q28594787 | Sall1 balances self-renewal and differentiation of renal progenitor cells |
| Q43197529 | Sall1 in renal stromal progenitors non-cell autonomously restricts the excessive expansion of nephron progenitors |
| Q48264747 | Sall1 is a transcriptional regulator defining microglia identity and function. |
| Q34427626 | Sall1 maintains nephron progenitors and nascent nephrons by acting as both an activator and a repressor |
| Q35921146 | Sall1 regulates cortical neurogenesis and laminar fate specification in mice: implications for neural abnormalities in Townes-Brocks syndrome |
| Q28512620 | Sall1, sall2, and sall4 are required for neural tube closure in mice |
| Q34080638 | Sall1-dependent signals affect Wnt signaling and ureter tip fate to initiate kidney development |
| Q28586318 | Sall3 is required for the terminal maturation of olfactory glomerular interneurons |
| Q34795247 | Sall4 Is Transiently Expressed in the Caudal Wolffian Duct and the Ureteric Bud, but Dispensable for Kidney Development |
| Q41285241 | Sall4 controls differentiation of pluripotent cells independently of the Nucleosome Remodelling and Deacetylation (NuRD) complex |
| Q38418119 | Signaling during Kidney Development |
| Q28510085 | Six1 is required for the early organogenesis of mammalian kidney |
| Q28586205 | Six2 is required for suppression of nephrogenesis and progenitor renewal in the developing kidney |
| Q47070040 | Spalt mediates an evolutionarily conserved switch to fibrillar muscle fate in insects |
| Q36693382 | Staged in vitro reconstitution and implantation of engineered rat kidney tissue |
| Q28244856 | Stem cell factor SALL4 represses the transcriptions of PTEN and SALL1 through an epigenetic repressor complex |
| Q92217820 | Synergistic inhibition of csal1 and csal3 in granulosa cell proliferation and steroidogenesis of hen ovarian prehierarchical development† |
| Q28594515 | TROP2 expressed in the trunk of the ureteric duct regulates branching morphogenesis during kidney development |
| Q39000495 | The contribution of branching morphogenesis to kidney development and disease. |
| Q34364718 | The hedgehog signal induced modulation of bone morphogenetic protein signaling: an essential signaling relay for urinary tract morphogenesis. |
| Q39202478 | The phosphatase Dullard negatively regulates BMP signalling and is essential for nephron maintenance after birth |
| Q36891700 | The pluripotency factor Nanog regulates pericentromeric heterochromatin organization in mouse embryonic stem cells |
| Q35012398 | The pro-apoptotic protein Bim is a microRNA target in kidney progenitors |
| Q37965806 | The role of stem cell factor SALL4 in leukemogenesis |
| Q28578134 | The zinc finger and C-terminal domains of MTA proteins are required for FOG-2-mediated transcriptional repression via the NuRD complex |
| Q33693614 | Transcriptional regulation and alternative splicing cooperate in muscle fiber-type specification in flies and mammals |
| Q48149649 | Transcriptional regulatory control of mammalian nephron progenitors revealed by multi-factor cistromic analysis and genetic studies. |
| Q50209849 | Truncated SALL1 Impedes Primary Cilia Function in Townes-Brocks Syndrome. |
| Q52109110 | Why study human limb malformations? |
| Q28589637 | Zinc finger protein sall2 is not essential for embryonic and kidney development |
| Q24623684 | p150(Sal2) is a p53-independent regulator of p21(WAF1/CIP) |
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