HUMAN SEMINAL PLASMA PROTEOME STUDY: A SEARCH
FOR MALE INFERTILITY BIOMARKERS
Davalieva K1,*, Kiprijanovska S1, Noveski P1, Plaseski T2, Kocevska B2,
Plaseska-Karanfilska D1
*Corresponding Author: Dr. Katarina Davalieva, Research Centre for Genetic Engineering and
Biotechnology “Georgi D. Efremov,” Macedonian Academy of Sciences and Arts, Krste Misirkov 2, 1000
Skopje, Republic of Macedonia; Tel.: +389-2-3235-410; Fax: +389-2-3115-434; E-mail: katarina@manu.edu.mk
page: 35
|
|
REFERENCES
1. Etzioni R, Kooperberg C, Pepe M, Smith R, Gann
PH. Combining biomarkers to detect disease with
application to prostate cancer. Biostatistics. 2003;
4(4): 523-538.
2. Zhang H, Liu AY, Loriaux P, et al. Mass spectrometric
detection of tissue proteins in plasma. Mol Cell
Proteomics. 2007; 6(1): 64-71.
3. De Kretser DM, Baker HW. Infertility in men: recent
advances and continuing controversies. J Clin
Endocrinol Metab. 1999; 84(10): 3443-3450.
4. Edwards JJ, Tollaksen SL, Anderson NG. Proteins of
human semen. I. Two-dimensional mapping of human
seminal fluid. Clin Chem. 1981; 27(8): 1335-
1340.
5. Starita-Geribaldi M, Poggioli S, Zucchini M, et al.
Mapping of seminal plasma proteins by two-dimensional
gel electrophoresis in men with normal and
impaired spermatogenesis. Mol Hum Reprod. 2001;
7(8): 715-722.
6. Fung KY, Glode LM, Green S, Duncan MW. A comprehensive
characterization of the peptide and protein
constituents of human seminal fluid. Prostate.
2004; 61(2): 171-181.
7. Pilch B, Mann M. Large-scale and high-confidence
proteomic analysis of human seminal plasma.
Genome Biol. 2006; 7(5): R40.
8. Kumar V, Hassan MI, Tomar AK, et al. Proteomic
analysis of heparin-binding proteins from human
seminal plasma: a step towards identification of
molecular markers of male fertility. J Biosci. 2009;
34(6): 899-908.
9. Rajeev SK, Reddy KVR. Sperm membrane protein
profiles of fertile and infertile men: identification and
characterization of fertility associated sperm antigen.
Hum Reprod. 2004; 19(2): 234-242.
10. Zhang J, Wu J, Huo R, et al. ERp57 is a potential
biomarker for human fertilization capability. Mol
Hum Reprod. 2007; 13(9): 633-639.
11. Starita-Geribaldi M, Roux F, Garin J, Chevallier D,
Fenichel P, Pointis G. Development of narrow immobilized
pH gradients covering one pH unit for human
seminal plasma proteomic analysis. Proteomics.
2003; 3(8): 1611-1619.
12. Yamakawa K, Yoshida K, Nishikawa H, Kato T,
Iwamoto T. Comparative analysis of interindividual
variations in the seminal plasma proteome of fertile
men with identification of potential markers for azoospermia
in infertile patients. J Androl. 2007; 28(6):
858-865.
13. Davalieva K, Kiprijanovska S, Noveski P, et al.
Proteomic analysis of seminal plasma in men with
different spermatogenic impairment. Andrologia.
2012; 44(4): 256-264.
14. Azumi N, Traweek ST, Battifora H. Prostatic
acid phosphatase in carcinoid tumors. Immunohistochemical
and immunoblot studies. Am J Surg
Pathol. 1991; 15(8): 785-790.
15. Dave BN, Rindani TH. Acid phosphatase activity in
human semen. Int J Fertil. 1988; 33(1): 45-47.
16. Vaubourdolle M, Clavel JP, Gonzales J, Galli A.
Evaluation of acid phosphatase isoenzymes in seminal
fluid from normozoospermic, oligozoospermic,
azoospermic and asthenoteratozoospermic men.
Andrologia. 1985; 17(6): 598-604.
17. Ziyyat A, Barraud-Lange V, Sifer C, Ducot B, Wolf
JP, Soufir JC. Paradoxical increase of sperm motility
and seminal carnitine associated with moderate
leukocytospermia in infertile patients. Fertil Steril.
2008; 90(6): 2257-2263.
18. Chiu WW, Chamley LW. Human seminal plasma
prolactin-inducible protein is an immunoglobulin
G-binding protein. J Reprod Immunol. 2003; 60(2):
97-111.
19. Katnik-Prastowska I, Przybysz M, Chelmonska-Soyta
A. Fibronectin fragments in human seminal plasma.
Acta Biochim Pol. 2005; 52(2): 557-560.
20. Wang J, Zhang HR, Shi HJ, et al. Proteomic analysis
of seminal plasma from asthenozoospermia patients reveals
proteins that affect oxidative stress responses and
semen quality. Asian J Androl. 2009; 11(4): 484-491.
|
|
|
|
 |
Number 27
VOL. 27 (2), 2024 |
Number 27
VOL. 27 (1), 2024 |
Number 26
Number 26 VOL. 26(2), 2023 All in one |
Number 26
VOL. 26(2), 2023 |
Number 26
VOL. 26, 2023 Supplement |
Number 26
VOL. 26(1), 2023 |
Number 25
VOL. 25(2), 2022 |
Number 25
VOL. 25 (1), 2022 |
Number 24
VOL. 24(2), 2021 |
Number 24
VOL. 24(1), 2021 |
Number 23
VOL. 23(2), 2020 |
Number 22
VOL. 22(2), 2019 |
Number 22
VOL. 22(1), 2019 |
Number 22
VOL. 22, 2019 Supplement |
Number 21
VOL. 21(2), 2018 |
Number 21
VOL. 21 (1), 2018 |
Number 21
VOL. 21, 2018 Supplement |
Number 20
VOL. 20 (2), 2017 |
Number 20
VOL. 20 (1), 2017 |
Number 19
VOL. 19 (2), 2016 |
Number 19
VOL. 19 (1), 2016 |
Number 18
VOL. 18 (2), 2015 |
Number 18
VOL. 18 (1), 2015 |
Number 17
VOL. 17 (2), 2014 |
Number 17
VOL. 17 (1), 2014 |
Number 16
VOL. 16 (2), 2013 |
Number 16
VOL. 16 (1), 2013 |
Number 15
VOL. 15 (2), 2012 |
Number 15
VOL. 15, 2012 Supplement |
Number 15
Vol. 15 (1), 2012 |
Number 14
14 - Vol. 14 (2), 2011 |
Number 14
The 9th Balkan Congress of Medical Genetics |
Number 14
14 - Vol. 14 (1), 2011 |
Number 13
Vol. 13 (2), 2010 |
Number 13
Vol.13 (1), 2010 |
Number 12
Vol.12 (2), 2009 |
Number 12
Vol.12 (1), 2009 |
Number 11
Vol.11 (2),2008 |
Number 11
Vol.11 (1),2008 |
Number 10
Vol.10 (2), 2007 |
Number 10
10 (1),2007 |
Number 9
1&2, 2006 |
Number 9
3&4, 2006 |
Number 8
1&2, 2005 |
Number 8
3&4, 2004 |
Number 7
1&2, 2004 |
Number 6
3&4, 2003 |
Number 6
1&2, 2003 |
Number 5
3&4, 2002 |
Number 5
1&2, 2002 |
Number 4
Vol.3 (4), 2000 |
Number 4
Vol.2 (4), 1999 |
Number 4
Vol.1 (4), 1998 |
Number 4
3&4, 2001 |
Number 4
1&2, 2001 |
Number 3
Vol.3 (3), 2000 |
Number 3
Vol.2 (3), 1999 |
Number 3
Vol.1 (3), 1998 |
Number 2
Vol.3(2), 2000 |
Number 2
Vol.1 (2), 1998 |
Number 2
Vol.2 (2), 1999 |
Number 1
Vol.3 (1), 2000 |
Number 1
Vol.2 (1), 1999 |
Number 1
Vol.1 (1), 1998 |
|
|
