| scholarly article | Q13442814 |
| P356 | DOI | 10.1196/ANNALS.1336.021 |
| P698 | PubMed publication ID | 16467268 |
| P2093 | author name string | Yongchang Qiu | |
| Gregory S Kopf | |||
| Daniel S Johnston | |||
| Kenneth P Roberts | |||
| Joe Wooters | |||
| P2860 | cites work | Cyclin A1 is required for meiosis in the male mouse | Q22008479 |
| Cytosolic adenylyl cyclase defines a unique signaling molecule in mammals | Q22008611 | ||
| Proteasomal interference prevents zona pellucida penetration and fertilization in mammals | Q23919487 | ||
| The immunoglobulin superfamily protein Izumo is required for sperm to fuse with eggs | Q24297835 | ||
| Identification of a testicular odorant receptor mediating human sperm chemotaxis | Q24298722 | ||
| Specific repertoire of olfactory receptor genes in the male germ cells of several mammalian species | Q24316202 | ||
| Expression of members of the putative olfactory receptor gene family in mammalian germ cells | Q24338448 | ||
| A voltage-gated ion channel expressed specifically in spermatozoa | Q24555134 | ||
| Acidification of the male reproductive tract by a proton pumping (H+)-ATPase | Q28275803 | ||
| Mammalian MutS homologue 5 is required for chromosome pairing in meiosis | Q28295022 | ||
| Requirement of phospholipase Cdelta4 for the zona pellucida-induced acrosome reaction | Q28505234 | ||
| A sperm ion channel required for sperm motility and male fertility | Q28589745 | ||
| Sperm chemotaxis | Q33537426 | ||
| Recent biochemical approaches to post-testicular, epididymal contraception | Q33640137 | ||
| CO(2)/HCO(3)(-)-responsive soluble adenylyl cyclase as a putative metabolic sensor | Q34365433 | ||
| Penetration, adhesion, and fusion in mammalian sperm-egg interaction | Q34699925 | ||
| Mouse models of male infertility. | Q34932076 | ||
| The state of the union: the cell biology of fertilization | Q35024496 | ||
| Status and future direction of male contraceptive development | Q35595772 | ||
| Olfactory receptors are displayed on dog mature sperm cells. | Q36534699 | ||
| Sperm-specific protein kinase A catalytic subunit Calpha2 orchestrates cAMP signaling for male fertility | Q37534651 | ||
| Endogenous Antispermatogenic Agents: Prospects for Male Contraception | Q37771462 | ||
| The mouse epididymal transcriptome: transcriptional profiling of segmental gene expression in the epididymis | Q40424665 | ||
| Novel male hormonal contraceptive combinations: the hormonal and spermatogenic effects of testosterone and levonorgestrel combined with a 5alpha-reductase inhibitor or gonadotropin-releasing hormone antagonist | Q45127856 | ||
| Probability-based evaluation of peptide and protein identifications from tandem mass spectrometry and SEQUEST analysis: the human proteome | Q45262189 | ||
| Intramuscular testosterone enanthate plus very low dosage oral levonorgestrel suppresses spermatogenesis without causing weight gain in normal young men: a randomized clinical trial | Q46468850 | ||
| The mouse RecA-like gene Dmc1 is required for homologous chromosome synapsis during meiosis | Q47858327 | ||
| Inactivation of the HR6B ubiquitin-conjugating DNA repair enzyme in mice causes male sterility associated with chromatin modification. | Q48060228 | ||
| The murine testicular transcriptome: characterizing gene expression in the testis during the progression of spermatogenesis. | Q52091895 | ||
| Late arrest of spermiogenesis and germ cell apoptosis in mice lacking the TBP-like TLF/TRF2 gene. | Q52132287 | ||
| Thermotaxis of mammalian sperm cells: a potential navigation mechanism in the female genital tract. | Q55036347 | ||
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 190-202 | |
| P577 | publication date | 2005-12-01 | |
| P1433 | published in | Annals of the New York Academy of Sciences | Q2431664 |
| P1476 | title | Analysis of the human sperm proteome | |
| P478 | volume | 1061 |
| Q36641203 | A comprehensive review of genetics and genetic testing in azoospermia |
| Q35618392 | A systematic analysis of a deep mouse epididymal sperm proteome |
| Q38447086 | Advances in sperm proteomics: best-practise methodology and clinical potential |
| Q36079961 | Analysis of Modification of Liver Proteome in Diabetic Rats by 2D Electrophoresis and MALDI-TOF-MS. |
| Q37436998 | Bioinformatics for spermatogenesis: annotation of male reproduction based on proteomics |
| Q37342459 | Biomarkers of chemotherapy-induced testicular damage |
| Q38417572 | Bovine sperm plasma membrane proteomics through biotinylation and subcellular enrichment |
| Q38218528 | Comparative profiling of the sperm proteome |
| Q36870995 | Current concepts of molecular events during bovine and porcine spermatozoa capacitation |
| Q38156246 | Current knowledge of the human sperm proteome. |
| Q53087137 | Differential proteomic profiling in human spermatozoa that did or did not result in pregnancy via IVF and AID. |
| Q46765241 | Differential proteomic profiling of spermatozoal proteins of infertile men with unilateral or bilateral varicocele |
| Q39809269 | Differential proteomics of sperm: insights, challenges and future prospects |
| Q38168875 | Emerging molecular methods for male infertility investigation |
| Q33871610 | Epigenetic processes implemented during spermatogenesis distinguish the paternal pronucleus in the embryo |
| Q45317935 | Fertilization |
| Q38234398 | Functional sperm testing and the role of proteomics in the evaluation of male infertility |
| Q33558424 | Glucose-regulated protein precursor (GRP78) and tumor rejection antigen (GP96) are unique to hamster caput epididymal spermatozoa |
| Q24656420 | Human spermatozoa contain multiple targets for protein S-nitrosylation: an alternative mechanism of the modulation of sperm function by nitric oxide? |
| Q35144136 | Identification of increased amounts of eppin protein complex components in sperm cells of diabetic and obese individuals by difference gel electrophoresis |
| Q46748064 | Identification of proteomic differences in asthenozoospermic sperm samples. |
| Q28505702 | Impaired sperm maturation in RNASE9 knockout mice |
| Q48217171 | In-depth proteomic analysis of boar spermatozoa through shotgun and gel-based methods |
| Q35248437 | Major protein alterations in spermatozoa from infertile men with unilateral varicocele |
| Q37350109 | Male gamete survival at stake: causes and solutions |
| Q34376937 | Pathoproteomics of testicular tissue deficient in the GARP component VPS54: the wobbler mouse model of globozoospermia |
| Q89975542 | Proteomic Analyses of Human Sperm Cells: Understanding the Role of Proteins and Molecular Pathways Affecting Male Reproductive Health |
| Q51747442 | Proteomic profile of human spermatozoa in healthy and asthenozoospermic individuals. |
| Q33342344 | Proteomics in the study of the sperm cell composition, differentiation and function |
| Q37084773 | Proteomics of spermatogenesis: from protein lists to understanding the regulation of male fertility and infertility |
| Q33543621 | Proteomics-based study on asthenozoospermia: differential expression of proteasome alpha complex |
| Q34764754 | Proteomics: a subcellular look at spermatozoa |
| Q48677059 | Purification and identification of sperm surface proteins and changes during epididymal maturation. |
| Q38202841 | Seminal plasma as a diagnostic fluid for male reproductive system disorders |
| Q35838071 | Sperm Proteome Maturation in the Mouse Epididymis |
| Q38265812 | Sperm Proteome: What Is on the Horizon? |
| Q36920012 | Sperm chromatin: fertile grounds for proteomic discovery of clinical tools |
| Q36579848 | Sperm phosphoproteomics: historical perspectives and current methodologies |
| Q37394527 | Sperm proteomics: road to male fertility and contraception |
| Q26783148 | Sperm selection in natural conception: what can we learn from Mother Nature to improve assisted reproduction outcomes? |
| Q34572253 | Study of sperm protein profile in men with and without varicocele using two-dimensional gel electrophoresis |
| Q33671722 | Systematic Mapping and Functional Analysis of a Family of Human Epididymal Secretory Sperm-Located Proteins |
| Q33856993 | Testicular postgenomics: targeting the regulation of spermatogenesis |
| Q43904571 | The Challenge of Human Spermatozoa Proteome: A Systematic Review |
| Q38127419 | The Profile of Human Sperm Proteome; A Mini-review |
| Q37289360 | The Rhesus macaque (Macaca mulatta) sperm proteome |
| Q38125520 | The application of proteomic approaches to the study of mammalian spermatogenesis and sperm function |
| Q26851366 | The combined human sperm proteome: cellular pathways and implications for basic and clinical science |
| Q38025677 | The contribution of proteomics to understanding epididymal maturation of mammalian spermatozoa. |
| Q37052149 | The role of proteomics in understanding sperm cell biology. |
| Q55424277 | Update on the proteomics of male infertility: A systematic review. |
| Q36748150 | [Ca2+]i signalling in sperm--making the most of what you've got. |
Search more.