about
Overexpression of catalase in myeloid cells causes impaired postischemic neovascularization.Bioartificial matrices for therapeutic vascularizationPromoting international collaboration and creativity in doctoral students.Polymerase δ-interacting protein 2 promotes postischemic neovascularization of the mouse hindlimbReactive oxygen species regulate osteopontin expression in a murine model of postischemic neovascularization.miR181a protects against angiotensin II-induced osteopontin expression in vascular smooth muscle cells.Amphotropic retrovirus transduction is inhibited by high doses of particle-associated envelope proteins.Highly efficient transduction of repopulating bone marrow cells using rapidly concentrated polymer-complexed retrovirus.Rapid concentration and purification of retrovirus by flocculation with Polybrene.Complexation with chondroitin sulfate C and Polybrene rapidly purifies retrovirus from inhibitors of transduction and substantially enhances gene transfer.Complexation of retrovirus with cationic and anionic polymers increases the efficiency of gene transfer.Retrovirus-polymer complexes: study of the factors affecting the dose response of transduction.Cellular encapsulation enhances cardiac repair.Alginate microencapsulation of human mesenchymal stem cells as a strategy to enhance paracrine-mediated vascular recovery after hindlimb ischaemia.Magnetic targeting of human mesenchymal stem cells with internalized superparamagnetic iron oxide nanoparticles.The stem cell shell game. Focus on "The postnatal rat aorta contains pericyte progenitor cells that form spheroidal colonies in suspension culture"Mobilizing bone marrow progenitor cells, a double edge swordThe changing face and abbreviated lives of bone marrow cells in the heart
P50
Q31025245-13193CFE-3E6A-4CAA-866C-15EAA026D739Q33734474-B459C4B8-21CE-4CED-9638-6C08B1D5AAB5Q33825765-73D40591-BBFB-44F2-A169-40E97C501A03Q34097015-D208BF45-238B-4FAE-808A-74B8F1830743Q34227711-F98AA729-7B9C-49BF-A79E-3CC088CD1A24Q36811371-CC3341FB-F2EA-4515-A594-802FA6925FE0Q40060320-50C012FC-814B-4881-B58E-6FEADE634228Q40439175-9420D9AE-FB37-4583-ADBB-D184389FF8E7Q42802790-9C03A26C-9886-4317-B71F-415EC242DF23Q42808887-99E20A8A-BE26-4A02-B488-56E5EEDE1BD1Q42825951-0BC823F2-6025-484F-A6AB-0E5D60D75FCAQ42830034-0B1ABE5D-4A3C-4277-93E1-9100894EAA5CQ42875580-421E1BB1-1E11-417E-B7A6-140089FA8AD0Q48548226-EAD25039-D09C-4A4C-8F8D-C22E18193DABQ51201458-DDF22A0C-D3D3-4028-991C-9D716ABC5CA6Q81454673-B0AD8EBA-D50F-4A1F-80A1-8365D4911800Q81646411-9212AC01-E160-4463-AD90-761BDD0C0AD0Q82984849-2D490F64-68B0-4437-BDAE-6EA99FA637DD
P50
description
researcher
@en
name
Landazuri N
@nl
Natalia Landazuri
@en
type
label
Landazuri N
@nl
Natalia Landazuri
@en
altLabel
Landazuri N
@en
prefLabel
Landazuri N
@nl
Natalia Landazuri
@en
P108
P106
P31
P496
0000-0002-7182-8767