Current perspectives in zebrafish reverse genetics: moving forward.
about
Reduced stability and intracellular transport of dsRNA contribute to poor RNAi response in lepidopteran insectsAnaesthetic tricaine acts preferentially on neural voltage-gated sodium channels and fails to block directly evoked muscle contractionA forward chemical screen in zebrafish identifies a retinoic acid derivative with receptor specificityVersatile synthesis and rational design of caged morpholinosProgress and prospects: techniques for site-directed mutagenesis in animal models.Genetic model system studies of the development of the enteric nervous system, gut motility and Hirschsprung's diseaseThe temporal resolution of in vivo electroporation in zebrafish: a method for time-resolved loss of functionIn vivo RNAi: today and tomorrowSmall molecule screening in zebrafish: an in vivo approach to identifying new chemical tools and drug leads.Transcriptional response to cardiac injury in the zebrafish: systematic identification of genes with highly concordant activity across in vivo models.DEAD-box protein Ddx46 is required for the development of the digestive organs and brain in zebrafish.The Zebrafish as a Tool to Cancer Drug Discovery.Zebrafish models for ectopic mineralization disorders: practical issues from morpholino design to post-injection observations.The Fanconi anemia/BRCA gene network in zebrafish: embryonic expression and comparative genomics.On the diabetic menu: zebrafish as a model for pancreas development and function.Zebrafish as a model to understand autophagy and its role in neurological disease.Zebrafish as a model to study cardiac development and human cardiac disease.The admiR-able advances in cardiovascular biology through the zebrafish model system.Prion protein function and the disturbance of early embryonic development in zebrafish.trpm7 regulation of in vivo cation homeostasis and kidney function involves stanniocalcin 1 and fgf23.Reverse genetic morpholino approach using cardiac ventricular injection to transfect multiple difficult-to-target tissues in the zebrafish larva.In vivo analysis of gut function and disease changes in a zebrafish larvae model of inflammatory bowel disease: a feasibility study.Evaluation of zebrafish brain development using optical coherence tomography.The GAL4 enhancer-trap line for analysis of definitive hematopoiesis in zebrafish
P2860
Q27311319-28D5C48D-CB9A-4CD6-8FE1-6EC3BC363BA8Q27316868-BCE7BFCC-862F-4067-A897-154C54D3FDEFQ28473528-06C56CFE-05EC-4D76-BF44-23AD214E2F6CQ30490258-A9049C55-A26F-4534-8B08-A1AC979D96B8Q33559271-F83C934D-D008-4D28-93D5-D2649F8F90FEQ33699347-F6295E14-7DAF-439D-B261-33C0061A572BQ33811969-9E82ADA0-E134-4F18-9F0E-1513CD53E2BCQ34014698-A4F7BECE-C952-42C3-94D4-5D0E9375924EQ34029188-F223117D-52D8-477A-AA79-D8A133A6220DQ34339944-E22A5A1C-0EF0-4BDE-8F71-BD448E65FF6BQ35839908-2A0F2A2F-A418-4C42-8CC6-E5A2CB658920Q36514714-7B993CC7-73BD-433D-B23A-79719127B3E0Q36894189-E47FF941-EE91-418A-B930-96EF98181EAAQ37271571-B2563E69-9C6E-4B7A-B603-93D638F063D6Q37389101-51E1519F-AB26-4914-8BC6-7F8AF75FFBA1Q37831557-9D37D2F8-3E9F-4AF7-AE20-F65510AD5433Q37878169-62A92F82-D371-4B80-89E5-86946A56EC94Q38052371-4D870EEF-F92A-471C-A0BB-5F9CBE79E7ADQ38297236-D8AC8427-3236-4292-AB72-F6ABE519FA51Q41120539-4557E919-560C-4323-9318-EB769FE21E04Q42942513-7CBA9B68-4860-46D1-B6F5-A49A49410E3BQ43175881-8E30C6FB-023C-4590-B57B-AB109FD536D1Q44950953-564F84D9-02A6-4432-BF6C-CDDE60BA5793Q58133824-68A9AC72-BDA2-4300-900C-EA4CC821F424
P2860
Current perspectives in zebrafish reverse genetics: moving forward.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Current perspectives in zebrafish reverse genetics: moving forward.
@en
Current perspectives in zebrafish reverse genetics: moving forward.
@nl
type
label
Current perspectives in zebrafish reverse genetics: moving forward.
@en
Current perspectives in zebrafish reverse genetics: moving forward.
@nl
prefLabel
Current perspectives in zebrafish reverse genetics: moving forward.
@en
Current perspectives in zebrafish reverse genetics: moving forward.
@nl
P2860
P356
P1476
Current perspectives in zebrafish reverse genetics: moving forward.
@en
P2093
Isaac Skromne
Victoria E Prince
P2860
P304
P356
10.1002/DVDY.21484
P577
2008-04-01T00:00:00Z