Robot | Path | Permission |
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Title | Schatzlab - |
Description | Cold Spring Harbor Laboratory | Johns Hopkins University research teaching publications people apply Welcome Our main research interest is in understandin |
Keywords | N/A |
WebSite | schatz-lab.org |
Host IP | 185.199.108.153 |
Location | - |
Site | Rank |
US$2,373,050
Last updated: 2023-05-09 14:57:28
schatz-lab.org has Semrush global rank of 4,460,211. schatz-lab.org has an estimated worth of US$ 2,373,050, based on its estimated Ads revenue. schatz-lab.org receives approximately 273,814 unique visitors each day. Its web server is located in -, with IP address 185.199.108.153. According to SiteAdvisor, schatz-lab.org is safe to visit. |
Purchase/Sale Value | US$2,373,050 |
Daily Ads Revenue | US$2,191 |
Monthly Ads Revenue | US$65,716 |
Yearly Ads Revenue | US$788,583 |
Daily Unique Visitors | 18,255 |
Note: All traffic and earnings values are estimates. |
Host | Type | TTL | Data |
schatz-lab.org. | A | 1798 | IP: 185.199.108.153 |
schatz-lab.org. | A | 1798 | IP: 185.199.111.153 |
schatz-lab.org. | A | 1798 | IP: 185.199.109.153 |
schatz-lab.org. | A | 1798 | IP: 185.199.110.153 |
schatz-lab.org. | NS | 1800 | NS Record: dns2.registrar-servers.com. |
schatz-lab.org. | NS | 1800 | NS Record: dns1.registrar-servers.com. |
schatz-lab.org. | MX | 1800 | MX Record: 10 eforward1.registrar-servers.com. |
schatz-lab.org. | MX | 1800 | MX Record: 10 eforward2.registrar-servers.com. |
schatz-lab.org. | MX | 1800 | MX Record: 10 eforward3.registrar-servers.com. |
schatz-lab.org. | MX | 1800 | MX Record: 20 eforward5.registrar-servers.com. |
schatz-lab.org. | MX | 1800 | MX Record: 15 eforward4.registrar-servers.com. |
schatz-lab.org. | TXT | 1800 | TXT Record: v=spf1 include:spf.efwd.registrar-servers.com ~all |
Cold Spring Harbor Laboratory | Johns Hopkins University research teaching publications people apply Welcome Our main research interest is in understanding the structure and function of genomes, especially those of medical or agricultural importance. The core strength of our research is in developing novel algorithms and computational systems for large-scale biological sequence analysis, including leading algorithms for de novo genome assembly, variant detection, and related –omics assays. Using these advances we have contributed to the de novo genome assemblies of dozens of species; probed the sequence variations related to autism, cancer, and other human diseases; mapped the transcriptional and epigenetic profiles of tomatoes, corn, and other important plant species; and explored the role of microbes in different environments. In response to the deluge of biological sequence data we are now facing, we have also been at the forefront of distributed and parallel computing in genomics, |
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