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Product description

SHUmandala Models for:

Compatible with Polaris
3089249 3089546 3089965
ATP 500 -- 2005(Not fit 2004!!)
Hawkeye 400 HO -- 2012-2014

Ranger 400 Carb -- 2010-2014

Scrambler 500 2x4 Int'l -- 2007-2008"br" Scrambler 500 4x4 -- 2005-2012"br" Scrambler 500 4x4 Int'l -- 2010-2012

Sportsman 400 4x4 F/C Carb -- 2004
Sportsman 400 F/C Carb -- 2005
Sportsman 450 -- 2006-2007
Sportsman 500 4x4 -- 2004-2006
Sportsman 500 6x6 -- 2007-2008
Sportsman 500 HO -- 2005, 2012
Sportsman 500 HO Carb -- 2006, 2008-2009
Sportsman 500 HO Forest -- 2012-2013
Sportsman 500 Touring – 2013

Package List :
1 * Stator

SHUmandala 3089249 3089546 3089965 Magneto Stator Compatible wit

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  • Ajmaline is an antiarrhythmic agent produced by the plant Rauvolfia serpentina. Why is it named after the Indian physician Hakim Ajmal Khan?

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  • Vitamin D

    It is well known that vitamin D is produced in our skin during exposure to the sun. But did you know it is made from cholesterol?

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  • DMSP Degradation

    Biological processes influence geochemical cycles. The main input of sulfur to the atmosphere is dimethyl sulfide, which is formed by microbial degradation of marine algae biomass.

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  • So what killed this guy?

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  • Twenty people were executed around Salem, MA for using witchcraft to afflict young girls. Were the victims bewitched, or could it be something they ate?

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  • Have you ever swum in the ocean and started to itch? Care to know why?

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    Coral Reef, taken by Susan Hazlett, USGS.Public domain.

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MetaCyc is a curated database of experimentally elucidated metabolic pathways from all domains of life. MetaCyc contains 2937 pathways from 3295 different organisms.

MetaCyc contains pathways involved in both primary and secondary metabolism, as well as associated metabolites, reactions, enzymes, and genes. The goal of MetaCyc is to catalog the universe of metabolism by storing a representative sample of each experimentally elucidated pathway.

MetaCyc applications include:

  • Online encyclopedia of metabolism
  • Predict metabolic pathways in sequenced genomes
  • Support metabolic engineering via enzyme database
  • Metabolite database aids metabolomics research

Guide To MetaCyc


Webinar Series

Webinar #1: Introduction to BioCyc
These six sequential segments, giving you a guided tour of the BioCyc collection in concise bites. To download or view, just click on one of the links following each segment's name.
Webinar #2: Introduction to SmartTables
The following webinar will guide you through SmartTables, which enable you to create, upload, share, and analyze sets of genes, metabolites, pathways, and sequence sites. The webinar is broken up into parts, ranging from basic operations to more advanced uses such as gene expression analysis and metabolomics. To download or view, click one of the links below.
Webinar #3: Zoomable Metabolic Map, Comparative Tools, Regulatory Network
This webinar introduces users to many of the advanced tools available on the website for navigating cellular networks, analyzing large-scale datasets, and comparing organisms.
Webinar #4: Omics Data Analysis
This webinar will show you how to use BioCyc's tools for omics data analysis, including the cellular omics viewer, the omics dashboard, and other tools.
Webinar #5: Pathway Collages
Pathway collages are multi-pathway diagrams that you can customize by, for example, overlaying omics data, altering the relative positions of pathways, and modifying connections among pathways. Learn how to generate, customize and export high-quality pathway-collage diagrams showing collections of user-specified pathways.
Webinar #6: Creating a Pathway/Genome Database
Learn the entire process of building a BioCyc-like Pathway/Genome Database (PGDB) for an organism with a sequenced and annotated genome. Build a PGDB for your own lab or for the whole scientific community.
Webinar #7: Using the Structured Advanced Query Page
An introduction to the Structured Advanced Query Page, which allows complex queries and queries across one or more databases in the BioCyc collection. You'll learn about:The basic steps of setting up an advanced query; Four examples of increasingly complex queries, including how to query across multiple databases; Where to learn more about the structure of BioCyc databases.