Indexed keywords
GREEN FLUORESCENT PROTEIN;
NAKED DNA;
PLASMID DNA;
ANIMAL CELL;
ARTICLE;
CANCER CELL CULTURE;
CONTROLLED STUDY;
DRUG EFFECT;
FLUORESCENCE ACTIVATED CELL SORTING;
FLUORESCENCE MICROSCOPY;
GENE DELIVERY SYSTEM;
GENE THERAPY;
GENETIC TRANSFECTION;
HOLMIUM LASER;
MALE;
NONHUMAN;
PRIORITY JOURNAL;
PROSTATE CANCER;
PROTEIN VARIANT;
RAT;
REPORTER GENE;
TARGET CELL;
YAG LASER;
ADENOCARCINOMA;
ANIMALS;
GENE THERAPY;
HOLMIUM;
LASERS;
MALE;
MICROSCOPY, FLUORESCENCE;
PLASMIDS;
PROSTATIC NEOPLASMS;
RATS;
TRANSFECTION;
TUMOR CELLS, CULTURED;
1
0037056216
A geographic analysis of prostate cancer mortality in the United States 1970-1989
Jemal A et al. A geographic analysis of prostate cancer mortality in the United States 1970-1989. Int J Cancer 2002; 101: 168-174.
(2002)
Int. J. Cancer , vol.101
, pp. 168-174
Jemal, A.1
2
0033817636
Gene therapy for prostate cancer: Where are we now?
Mitchell SS, Jeffrey RG. Gene therapy for prostate cancer: where are we now? J Urol 2000; 164: 1121-1136.
(2000)
J. Urol. , vol.164
, pp. 1121-1136
Mitchell, S.S.1
Jeffrey, R.G.2
3
0036324470
Gene therapy of prostate cancer: Current and future directions
Mabjeesh NJ, Zhong H, Simons JW. Gene therapy of prostate cancer: current and future directions. Endocr Relat Cancer 2002; 9: 115-139.
(2002)
Endocr. Relat. Cancer , vol.9
, pp. 115-139
Mabjeesh, N.J.1
Zhong, H.2
Simons, J.W.3
4
0035401235
Viral based gene therapy for prostate cancer
Lu Y. Viral based gene therapy for prostate cancer. Curr Gene Ther 2001; 1: 183-200.
(2001)
Curr. Gene Ther. , vol.1
, pp. 183-200
Lu, Y.1
5
0031913736
An expressed sequence-tag database of the human prostate: Sequence analysis of 1168 cDNA clones
Nelson PS et al. An expressed sequence-tag database of the human prostate: sequence analysis of 1168 cDNA clones. Genomics 1998; 47: 12-25.
(1998)
Genomics , vol.47
, pp. 12-25
Nelson, P.S.1
6
0034835307
Gene therapy for prostate cancer: Current status and future prospects
Harrington KJ et al. Gene therapy for prostate cancer: current status and future prospects. J Urol 2001; 166: 1220-1233.
(2001)
J. Urol. , vol.166
, pp. 1220-1233
Harrington, K.J.1
7
0031787123
Targeted gene transfer to corneal epithelium in vivo by electric pulse
Oshima Y et al. Targeted gene transfer to corneal epithelium in vivo by electric pulse. Gene Therapy 1998; 5:1347-1354.
(1998)
Gene Therapy , vol.5
, pp. 1347-1354
Oshima, Y.1
8
0022607780
The laser method for efficient introduction of foreign DNA into cultured cells
Kurata S, Tsukakoshi M, Kasuya T, Ikawa Y. The laser method for efficient introduction of foreign DNA into cultured cells. Exp Cell Res 1986; 162: 372-378.
(1986)
Exp. Cell Res. , vol.162
, pp. 372-378
Kurata, S.1
Tsukakoshi, M.2
Kasuya, T.3
Ikawa, Y.4
9
0030267958
Targeted gene transfer in eukaryotic cells by dye-assisted laser optoporation
Palumbo G et al. Targeted gene transfer in eukaryotic cells by dye-assisted laser optoporation. J Photochem Photobiol 1996, 36: 41-46.
(1996)
J. Photochem. Photobiol. , vol.36
, pp. 41-46
Palumbo, G.1
11
0036629496
Laser assisted optoporation of single cells
Schneckenburger H et al. Laser assisted optoporation of single cells. J Biomed Opt 2002; 7: 410-416.
(2002)
J. Biomed. Opt. , vol.7
, pp. 410-416
Schneckenburger, H.1
12
0037130122
Targeted transfection by femtosecond laser
Tirlapur UK, Konig K. Targeted transfection by femtosecond laser. Nature 2002; 418: 290-291.
(2002)
Nature , vol.418
, pp. 290-291
Tirlapur, U.K.1
Konig, K.2
13
0027031422
Gene transfer in vivo with DNA-liposome complexes: Lack of autoimmunity and gonadal localization
Nabel EG et al. Gene transfer in vivo with DNA-liposome complexes: lack of autoimmunity and gonadal localization. Hum Gene Ther 1992; 3: 649-656.
(1992)
Hum. Gene Ther. , vol.3
, pp. 649-656
Nabel, E.G.1
14
0032829319
Direct in vivo gene transfer to urological organs
James JY et al. Direct in vivo gene transfer to urological organs. J Urol 1999; 162: 1115-1118.
(1999)
J. Urol. , vol.162
, pp. 1115-1118
James, J.Y.1
