- Help
- Anisearch
- Access to genomic data
- Explore the genome
- Explore the anatomy
- Access to expression data
- Explore the literature
- Download section
The first reflex in Aniseed: ANISEARCH
| Example |
| You want to find the ISH comments related to "pem". |
- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Enter the biological name or the identifier of the gene model (ENSEMBL, JGI v1.0, KYOTOGRAIL2005) you are looking for.
- Click on the "Submit" button.
Example You want to find the sequence of Otx
- Can you explain the result of this query?
The result of your query will be presented in a list of the gene model ID (ENSEMBL, JGI v1.0 or KYOTOGRAIL2005), the associated biological name and the specie. You will also access to the best blast hits records displayed on the gene models found by your query. You can either click on the gene name of interest to get the associated gene model card, or tick right of the gene model ID to constitute a list of genes of interest that can be further restricted using the "Refine" button that enables sequential requests.
- What is it described on a gene model card?
This page gives access to the functional annotation (name, scaffold, orthologous in mouse, human and drosophila, best blast hit in Swissprot, interpro domains and Gene Ontology classification), the other tabs give access to the sequence (nucleotide and aa), associated ESTs, EST counts in the various sequenced libraries, in situ data in WT and manipulated conditions, molecular tools (morpholinos, full length Gateway clones), microarray probes (to be implemented). The genomic annotations can be exported as a flat file via the export tab.
Click here to run this search in Aniseed.
You can search transcript models by functionnal annotation.
- Searching for gene model using identifier(s) or term(s) of Gene ontology
The Aniseed pipeline annotation forms the basis for the Gene Ontology classifications of the genes. This page allows you to search for genes according to their associated Gene Ontology terms (search for proteins involved in a given process, molecular function, subcellular loicalisation). After entered terms or identifiers of GO you are looking for, you will have a list a GO terms corresponding to your query. You can Select GO terms of interest, specify the specie that you want the genes and click on "get corresponding gene" button. The GO terms were associated to the gene thanks to the ortholog prediction and/or the best blast hits and/or Interproscan. You can also specify in your query if you only want that the GO terms were predicted with one or all by the "soft". The result of this query will give you a list of genes model with the GO terms you have clicked. You can use the refine tool to select specific gene model in the list.
- Enter the term(s) or the identifier(s) of Gene Ontology you are looking for.
- Click on the "Submit" button.
You can enter several terms or identifiers by separating your entries with a space.
Example You want to find for gene model with a
transcription regulator activity
- Click here to run this search in Aniseed.
- Searching for gene model using identifier(s) or term(s) of Interpro
Interproscan was performed for each Ciona protein and thus, the presence of functional motifs were deduced. You can search for genes according to their InterPro terms (search for protein with given protein motifs).
After entering the term(s) or the identifier(s) of Interpro, you will have a list of Interpro terms corresponding to your query. You can Select Interpro terms of interest, specify the specie that you want the genes and click on "get corresponding gene" button. The result of this query will give you a list of genes model with the Interpro terms you have clicked. You can use the refine tool to select specific gene model in the list.
- Enter the term(s) or the identifier(s) of Interpro you are looking for.
- Click on the "Submit" button.
You can enter several terms or IDs by separating your entries with a space.
Example You want to find for gene model
containing homeoboxes
- Click here to run this search in Aniseed.
How do I search for a molecular tool?
Aniseed supports the description of expression patterns and phenotypes in response to perturbations of gene function. To define these perturbations, it uses the concept of "Molecular tool" which can be morpholinos, overexpression contructs (Electroporation or mRNA injection), or pharmacological reagent. You can search for molecular tools by name or part of the name.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Enter the name or a part of the name the molecular tool you are looking for.
- Click on the "Submit" button.
| Example |
| You want to find molecular tools perturbing otx gene. |
- Click here to run this search in Aniseed.
- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Enter the name of the clone you are looking for.
- Click on the "Submit" button.
| Example |
| You want to find In Situ data assossiated to the clone cicl01i06. |
- Can you explain the result of this query? The "clone" page:
- What is it described on a "clone sequence" page?
Some features like a brief description, the type of the sequence (EST or cDNA), the orientation are first described. You can also access directly to the Genbank clone card by clicking on the Genbank ID. You retrieve the library used, the vector used, the tissue or the organ that it comes from. There are also the genes models corresponding to the clone sequence and when available, a link to the in situ data. Finally, you can find the sequence. All the information of this page can be exported in raw text format by clicking on "Display entry in raw text format". - What is it described on a "cluster" page?
Some features like the name of the cluster, the number of the clones present, the corresponding gene and the specie are first described. You will also access to the list of the different clone sequence, with its corresponding clone and its orientation. You can click on each clone name or on each clone sequence to find more details. A "download" button allows you to export the sequence of all the clone (button "select all") or only of the clone that you are interested in by clicking on the corresponding checked box.
The result of your query will be presented in a list of the clones found in Aniseed corresponding to the clone name that you search. You can access on the description of the clone by clicking on the link. The corresponding page gives access to some features like the library where the clone came from, the vector used. You will also find the different clone sequences corresponding to the clone and the cluster that the clone belongs to from the three assemblies.
How do I search for a regulatory sequence?
In Aniseed, a regulatory region is a segment of the genome that has been tested for its capacity to drive expression in vivo. It can have a natural (genomic) or an artificial (mutations, synthetic sequence) origin. Currently, cis-regulatory regions from 27 genes are described in Aniseed and linked to Aniseed Genome Browser.You can search regulatory regions by species, identifier, biological name, type of regulation, gene regulated, or publication. The gene must be indicated using its identifier.
| Example |
| You want to find sequences regulating Brachyury. |
- Can you explain the result of this query? The result of your query will be presented in a list of regulatory regions. You can access on the description of the regulatory region by clicking on the link. The corresponding page gives access to the regulatory region page. What is it described on a "regulatory region" page?
- Link to see the regulatory region on the Aniseed Genome Browser
- Description: general comment describing the region, the different modules and motifs that are important to regulate the gene.
- Hierarchy: regulatory regions are organised hierarchically in Aniseed. A regulatory region may thus derive from a parent region by deletion, mutation, or/and other artificial modification
- Type of regulation: a region has a specific regulatory activity. Aniseed classification of these
activities is based on the ongoing Sequence Ontology, and currently includes the following concepts:
- basal promoter (only includes sites for the basal transcription machinery)
- extended promoter (basal promoter plus other regulatory elements, this usually corresponds to a 5' flanking region)
- enhancer (a unique enhancer without basal promoter)
- silencer ( a unique silencer without basal promoter)
- insulator (a unique insulator without basal promoter)
- complex regulatory region (several enhancers or silencers, etc. but no basal promoter)
- No Activity
- Unknown activity (Other cases we did not think about...)
- Link to the construct(s) used to test this region: the regulatory activity of a region is tested through constructs. These are molecular entities used to store spatial and temporal data of expression assays (stored in Aniseed as in-situ records). They contain a sequence (if possible the precise one that was tested, if known, otherwise its JGI v1.0 representative) and a reporter element (e.g. LacZ). They may also contain a basal promoter (chosen among the regions that are defined as such), if the region tested does not contain an endogenous promoter.
- Overview and description of the regulatory motifs: a region may contain regulatory motifs. These are (usually short) sub-sequences of a regulatory region that play a role in the region's capacity to drive expression (e.g. Trancription factor binding sites). Their location in the region's sequence is defined by motif coordinates. A regulatory motif is an instance of a motif class, which represents the high-level abstract notion of a motif (e.g. GATA motif). Each individual motif can be associated to the upstream transcription factor(s) that binds it, when known.
- Sequence and coordinates: The 5´ and 3´ boundaries of the sequence are defined by a set of coordinates. In Aniseed, we normalize a region´s coordinates with respect to the expected mature mRNA start site (noted +1). For some regions, the Aniseed coordinates may thus differ from the coordinates defined in the publications describing them. The comments field allows to indicate this. By definition, a region is represented by its sequence on the JGI version 1 browser, even if the individual sequences tested in electroporation constructs differ from the "canonical" sequence because of polymorphisms. This info is not lost but will be included in the description of the "construct" used to test the region.
- Reference(s)
- Choose the type of blast you want to perform (Blastn, tBlastn, tBlastx).
- Choose the database.
- Enter your sequence in Fasta format.
- Define the blast parameters.
- Can you explain the result of this query? The results of this query will be presented in a list of alignments ordered by score. At the end of this page, you will find a link to view the first result in the genome browser.
- Click here to run this search in Aniseed.
Go to the Aniseed genome browser
A GBrowse-based Genome Browser was made public to display various information on the genome. The Aniseed genome browser is cross linked to the database. Information displayed includes JGI, KyotoGrail2005 and ENSEMBL transcript models, TIGR EST clusters and predicted non-coding mRNA. It also displays the conservation profile between the two sequenced ciona genomes (Ciona intestinalis and Ciona savignyi), as well as Cis-regulatory sequences supported by Aniseed. You can access to this page using the "Explore Genome" menu.- Click here to access to the Aniseed Genome Browser.
How do I find an anatomical territory in the ontology?
This page allows you to find a territory by searching the anatomical ontology of a species of interest.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Click on the "Submit" button. The results page displays the ontology on the left and, depending on the developmental stages, embryo schemes on the right.
| Example |
| You want to find the anatomical dictionary and the scheme of a 64-cell stage embryo. |
- Click here to run this search in Aniseed.
How do I find an anatomical territory on an embryo scheme?
This page allows to retrieve a territory according to its localisation on embryo schemes. You can search whole Ciona and Halocynthia embryos up to the 110-cell stage and the neural plate of Ciona embryos up to the early tailbud stage.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Click on the "Submit" button. The results page displays a clickable embryo scheme.
| Example |
| You want to find what are the little cells localized in the posterior part of a 110-cell stage embryo. |
- Click here to run this search in Aniseed.
How do I find territories by their fates?
This page allows you to find the territory at a given stage that gives rise to a fate of interest.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Choose a "Fate" of interest from the menu by clicking on the arrows and scrolling down.
- Click on the "Submit" button. You can select several fates and use the boolean operators on the right of the page to restrict your query. The result page lists the corresponding territories.
| Example |
| You want to find cells at 64-cell stage which give rise only to notochord. |
How do I find progeny/precursors of a territory?
This page allows you to retrieve from the lineage data the precursors/progeny of a territory of interest.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Add territories by clicking on the Add button. A pop up window opens that allows to select territories from the relevant anatomical ontology. You can remove territories or reset the whole field.
- Tick on the right whether you want to see the progenitors, progeny or both.
- Click on the "Submit" button. Upon submission of the request the relevant part of the lineage is displayed in a new window.
| Example |
| You want to find progenies and progenitors of B7.6 cell pair. |
How do I find neighbours of a cell?
This page allows to search 3D Virtual Embryo data to identify the neighbouring territory of a cell, currentlyup to the 44 cell stage of Ciona intestinalis.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Add territories by clicking on the Add button. A pop up window opens that allows to select territories from the relevant anatomical ontology. You can remove territories or reset the whole field.
- You can change the default maximum distance to neighbouring territory (< 5m).
- You can change the default surface of contact between cells (>0m).
- Click on the "Submit" button. Upon submission, a new page appears listing the neighbouring structures and the surface of contact with the territory of interest.
neighbouring territory of a4.2. |
How do I find cells by their shapes?
This page allows to search 3D Virtual Embryo data to identify cells of a given shape. All values are set to zero by default and upon submission the values of all shape descriptors are displayed (Cell volume, Cell surface, sphericity, convexity, elongation, Flatness, Squareness, Entropy, Surface/volume ratio and cell volume/embryo volume).- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- You can change the shape descriptor parameters according what you are looking for
How do I find asymetric cleavages?
This page allows to compare the volumes of sister cells in Ciona intestinalis embryos up to the 112 cell stage.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- As several 3D embryos are available for each stage, choose one or more embryos.
- Select the % of asymmetry (calculated as 1-Vsmall_sister/Vlarge_sister)
- Click on the "Submit" button. Upon submission a list of sister pairs satisfying the required asymmetry is obtained. If "asymmetry >0" is selected, the cleavage asymmetry of all sister pairs at the selected stage is displayed in the results page.
more than 20% of asymmetry. |
How do I find similarities or differences in shape cells?
This page allows to display a tree showing geometry similarities between blastomeres for the selected embryo up to the 44 cell stage.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Click on the "Submit" button.
- The results page present a tree in which you can specify the fate of the different cells.
- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Enter the clone or the gene model of interest in the "stained molecule" box. If you dont know the ID of the gene model, you can search your molecule ID using the "Find a gene model by its name" interface. You can enter several molecules separated by ":".
- If you want to include expression pattern in manipulated conditions like gene deregulation, click on the corresponding button ("Include expression patterns in Deregulated Context"). You can specify by entering a gene model ID in the corresponding box, a gene which could be deregulated in an experiment. Moreover, like the stained molecule, you can enter several gene models ID separated by ":".
- If you just want to access expression pattern in manipulated conditions like embryo manipulation, click on the corresponding button ("Include expression patterns in experimentally manipulated embryos").
| Example |
| You search for wild type expression data of Otx. |
| Example |
| You search for expression data of Snail in which Nodal was deregulated. |
| Example |
| You search for expression data of Snail including ablation of blastomeres experiments, at the 112-cell stage. |
- Can you explain the result of this query?
You will have a list of all the experiment data corresponding to your query ordered by developmental stages. The number of the experiment is specified on the top right of the window. You can click on the top left of the window to zoom in or to zoom out the pictures. At the bottom, you will access to the refine tool. If you want to know more about an experiment, you can click on the corresponding "more" button.
- Click here to run this search in Aniseed.
- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Choose a "Developmental stage" from the menu by clicking on the arrows and scrolling down.
- Define you territories of interest either via the detailed anatomical ontology for each stage (use the "Add" button) or a simpler list of fates. To find tissue specific expression patterns tick the "only" box.
- You can also specify that you want to exclude patterns labelling a list of unwanted territories.
| Example |
| You search for the genes ONLY expressed in B7.6 at 112 cell stage. |
| Example |
| You search for the genes expressed in the muscle and not in the endodermal strand at early tailbud stage. |
- Click here to run this search in Aniseed.
- Click here to run this search in Aniseed.
- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- tick the libraries (pool A, pool B) to analyse. Pool A corresponds to libraries you would like ESTs to be enriched over pool B. By ticking all, you can retrieve all gene models represented in a given EST pool.
Find articles related to a given gene
This page allows the user to retrieve articles related to a given gene.- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Type the name of a gene of interest
- By default all ascidian articles studying this gene will be returned. You can additionally restrict your search to articles reporting studies on the wild type expression, the regulation, or the function of this gene
| Example |
| You search for articles dealing with the regulation of Otx, for Ciona intestinalis. |
- Can you explain the result of this query?
- Click here to run this search in Aniseed.
Find articles describing the specification of a given cell fate
- Choose an "Ascidian species" from the menu by clicking on the arrows and scrolling down.
- Select one or several cell fates
- Submit
| Example |
| You search for all articles in which the specification mechanism for the mesenchyme was experimentally studied. |
- Can you explain the result of this query?
Search articles by Authors or Title words
- Type in the field one or several Authors name or words, separated by a comma.
- Submit
| Example |
| You search for all articles from Clare Hudson. |
- Can you explain the result of this query?
All Aniseed data can be found in the download section. This includes the
anatomical ontologies; fate, lineage and morphometry information; gene models with their
functional annotations; EST/cDNA sets; molecular tools including morpholinos; cisregulatory
sequences; and Cisreg/
ISH whole mount annotations and pictures.
To exchange ISH data with other systems, we defined a new standard MISFISHIE compliant
XML format, the in situ Markup Language.
