Compiled Accession Lists

This page details lists of material which may be useful either as sets of materials to recreate popular experiments e.g. Mendel's Pea Genetics Experiments or a subset used in a specific research approach or publication.

Select a Compiled Accession List to View:

List Title

List Description

Global Modern Wheat Panel

Selected set of 216 20th-century wheat cultivars sourced from 25 countries. This panel embodies the maximal diversity contained in the 1169 cultivars genotyped using the Axiom 35K Array, (with data publicly available on CerealsDB database in 2022). Whole genome re-sequencing data (~X12) was generated in collaboration with AGIS CAAS.
This list includes 216 accession(s).

WATDE Ancestral Group 7

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 109 accession(s).

WATDE Ancestral Group 6

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 193 accession(s).

WATDE Ancestral Group 5

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 182 accession(s).

WATDE Ancestral Group 4

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 64 accession(s).

WATDE Ancestral Group 3

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 111 accession(s).

WATDE Ancestral Group 2

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 110 accession(s).

WATDE Ancestral Group 1

A subset of SSD derived lines from the Watkins Collection of Bread Wheat Landrace, clustered by whole-genome re-sequencing data (in collaboration with AGIS CAAS).
This list includes 59 accession(s).

Watkins Derived Tetraploid Core

A core set of 50 Watkins Tetraploid Landrace lines (available on SeedStor as a Compiled Accession List) was generated using Core Hunter 3 (https://doi.org/10.1186/s12859-018-2209-z) to offer high diversity in a smaller set.
This list includes 50 accession(s).

Watkins Derived Hexaploid Core

A core set of 119 Watkins Hexaploid Landrace lines have been defined (Wingen et al 2014, available on SeedStor as a Compiled Accession List) which captures a sizeable amount of the total diversity available across the entire set. A set of 90 of these lines have been used to create the Nested Association Mapping (NAM) collections using elite common parent Paragon. Further details of which can found at https://view.officeapps.live.com/op/view.aspx?src=https%3A%2F%2Fwisplandracepillar.jic.ac.uk%2Fresources%2FJIC_Wheat_Pre-Breeding_WISP_Watkins_Whole_Collection.xlsx&wdOrigin=BROWSELINK and seed of this can be ordered from the DFW NAM panel in SeedStor.
This list includes 119 accession(s).

Whole Genome Re Sequence Hexaploid Modern Global Wheat Lines

A selection of whole genome re-sequenced cultivars developed as a result of collaboration with The Chinese Academy of Agricultural Sciences. Lines are sourced are from GRU collections as follows; GEDIFLUX European Cvs (WGED), Bristol Cereal Database (WBCDB), RenSeq (WREN) and BBSRC Small Grains Collection (W).
This list includes 212 accession(s).

Pisum core collection of 200 lines

A subset of 200 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 200 accession(s).

Pisum core collection of 180 lines

A subset of 180 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 180 accession(s).

Pisum core collection of 160 lines

A subset of 160 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 160 accession(s).

Pisum core collection of 140 lines

A subset of 140 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 140 accession(s).

Pisum core collection of 120 lines

A subset of 120 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 120 accession(s).

Pisum core collection of 100 lines

A subset of 100 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 100 accession(s).

Pisum core collection of 80 lines

A subset of 80 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 80 accession(s).

Pisum core collection of 60 lines

A subset of 60 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 60 accession(s).

Pisum core collection of 40 lines

A subset of 40 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 40 accession(s).

Pisum core collection of 20 lines

A subset of 20 accessions to maximise the sampled genetic diversity of ~3000 genotyped accessions of the JI Pisum collection. The marker-based genotyping is described in Jing et al., 2010 (https://doi.org/10.1186/1471-2148-10-44) and the algorithm (core hunter 3) used to expand the diversity is described in De Beukelaer et al., 2018 (https://doi.org/10.1186/s12859-018-2209-z).
This list includes 20 accession(s).

Mendels Peas

Accessions that show the phenotypic differences in Mendel's pea experiments.
This list includes 12 accession(s).