scholarly article | Q13442814 |
P50 | author | Thomas C. G. Bosch | Q2422861 |
Yoshitaka Kobayakawa | Q110369547 | ||
P2093 | author name string | Charles N David | |
Eisuke Hayakawa | |||
Toshio Takahashi | |||
Rinako Suetsugu | |||
Toshitaka Fujisawa | |||
Osamu Koizumi | |||
Sumiko Minobe | |||
P2860 | cites work | Differential display of eukaryotic messenger RNA by means of the polymerase chain reaction | Q28131789 |
Elimination by Hydra interstitial and nerve cells by means of colchicine | Q28250363 | ||
Patterns of amino acids near signal-sequence cleavage sites | Q29616542 | ||
Identification of a new member of the GLWamide peptide family: physiological activity and cellular localization in cnidarian polyps | Q30947409 | ||
A novel gene family controls species-specific morphological traits in Hydra | Q33385483 | ||
Systematic isolation of peptide signal molecules regulating development in hydra: LWamide and PW families | Q35993372 | ||
Hydra peptide project 1993-2007. | Q37155820 | ||
Correlations between the neurobiology of colour vision and the psycholinguistics of colour naming | Q39787968 | ||
Genetic analysis of developmental mechanisms in hydra. VI. Cellular composition of chimera hydra | Q41452276 | ||
Interstitial cell migration in Hydra attenuata. II. Selective migration of nerve cell precursors as the basis for position-dependent nerve cell differentiation | Q41576116 | ||
Spatial and temporal patterns of interstitial cell migration in Hydra vulgaris | Q41997736 | ||
Oxytocin/vasopressin-like immunoreactivity is present in the nervous system of hydra. | Q42462928 | ||
Enhancement of foot formation in Hydra by a novel epitheliopeptide, Hym-323. | Q42498302 | ||
A novel neuropeptide (FRamide) family identified by a peptidomic approach in Hydra magnipapillata | Q42519347 | ||
A new case of neuropeptide coexpression (RGamide and LWamides) in Hydra, found by whole-mount, two-color double-labeling in situ hybridization. | Q42521442 | ||
Phenotypic maturation of neurons and continuous precursor migration in the formation of the peduncle nerve net in Hydra | Q42523191 | ||
CnNK-2, an NK-2 homeobox gene, has a role in patterning the basal end of the axis in hydra | Q42527857 | ||
A subset of cells in the nerve net of Hydra oligactis defined by a monoclonal antibody: its arrangement and development | Q43803494 | ||
Genetic analysis of developmental mechanisms in hydra. ii. isolation and characterization of an interstitial cell-deficient strain | Q43866346 | ||
Tissue dynamics of steady state growth in Hydra littoralis. I. Patterns of cell division | Q45073174 | ||
Neuron differentiation in hydra involves dividing intermediates | Q45750681 | ||
Plasticity in the nervous system of adult hydra. II. Conversion of ganglion cells of the body column into epidermal sensory cells of the hypostome | Q46059082 | ||
Hym-301, a novel peptide, regulates the number of tentacles formed in hydra | Q46191568 | ||
A novel neuropeptide, Hym-176, induces contraction of the ectodermal muscle in Hydra | Q47688747 | ||
Molecular cloning of a preprohormone from Hydra magnipapillata containing multiple copies of Hydra-L Wamide (Leu-Trp-NH2) neuropeptides: evidence for processing at Ser and Asn residues | Q48053448 | ||
The primitive metazoan Hydra expresses antistasin, a serine protease inhibitor of vertebrate blood coagulation: cDNA cloning, cellular localisation and developmental regulation | Q48157849 | ||
Tissue dynamics of steady state growth in Hydra littoralis. II. Patterns of tissue movement. | Q50979955 | ||
Genetic analysis of developmental mechanisms in hydra. XX. Cloning of interstitial stem cells restricted to the sperm differentiation pathway in Hydra magnipapillata. | Q51056300 | ||
Involvement of Hydra achaete-scute gene CnASH in the differentiation pathway of sensory neurons in the tentacles. | Q52087437 | ||
Role of interstitial cell migration in generating position-dependent patterns of nerve cell differentiation in Hydra. | Q52246549 | ||
Development of hydra lacking nerve and interstitial cells | Q52305251 | ||
Vital marking of single cells in developing tissues: India ink injection to trace tissue movements in hydra. | Q54516150 | ||
Quantitative analysis of cell types during growth and morphogenesis in Hydra | Q57407806 | ||
Cell cycle kinetics and development of Hydra attenuata. III. Nerve and nematocyte differentiation | Q68871534 | ||
Patterning of the head in hydra as visualized by a monoclonal antibody. I. Budding and regeneration | Q68901091 | ||
Gland cells in Hydra: cell cycle kinetics and development | Q68923232 | ||
Gland cells arise by differentiation from interstitial cells in Hydra attenuata | Q69057733 | ||
Comparison of four bifunctional reagents for coupling peptides to proteins and the effect of the three moieties on the immunogenicity of the conjugates | Q69205718 | ||
FMRFamide-like immunoreactivity in the nervous system of Hydra | Q70225623 | ||
Migrating interstitial cells differentiate into neurons in hydra | Q71736840 | ||
Nerve cell differentiation in nerve-free tissue of epithelial hydra from precursor cells introduced by grafting. I. Tentacles and hypostome | Q71816791 | ||
Pattern of differentiated nerve cells in hydra is determined by precursor migration | Q73116630 | ||
A novel neuropeptide, Hym-355, positively regulates neuron differentiation in Hydra | Q73419343 | ||
A quantitative method for maceration of hydra tissue | Q89557082 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 119-129 | |
P577 | publication date | 2009-01-30 | |
P1433 | published in | Development Genes and Evolution | Q2935926 |
P1476 | title | Further characterization of the PW peptide family that inhibits neuron differentiation in Hydra | |
P478 | volume | 219 |
Q22337086 | A two-step process in the emergence of neurogenesis |
Q96303479 | Comparative Aspects of Structure and Function of Cnidarian Neuropeptides |
Q35138921 | Insight into the molecular and functional diversity of cnidarian neuropeptides |
Q48120407 | Novel pentapeptide, PALAL, derived from a bony fish elicits contraction of the muscle in starfish Patiria pectinifera |
Q22337303 | Origins of neurogenesis, a cnidarian view |
Q38051058 | The stem cell system in demosponges: suggested involvement of two types of cells: archeocytes (active stem cells) and choanocytes (food-entrapping flagellated cells). |
Search more.