@article{fdi:010062585,
  title = {{I}n silico mining of microsatellites in coding sequences of the date palm ({A}recaceae) genome, characterization, and transferability},
  author = {{A}berlenc {B}ertossi, {F}r{\'e}d{\'e}rique and {C}astillo, {K}. and {D}ubreuil {T}ranchant, {C}hristine and {C}herif, {E}. and {B}allardini, {M}. and {A}bdoulkder, {S}. and {G}ros-{B}althazard, {M}. and {C}habrillange, {N}athalie and {S}antoni, {S}. and {M}ercuri, {A}. and {P}intaud, {J}ean-{C}hristophe},
  editor = {},
  language = {{ENG}},
  abstract = {{P}remise of the study : {T}o complement existing sets of primarily nucleotide microsatellite loci from noncoding sequences of date palm, we developed primers for tri- and hexanueleotide microsatellite loci identified within genes. {D}ue to their conserved genomic locations, the primers should be useful in other palm taxa, and their utility was tested in seven other {P}hoenix species and in {C}hamaerops, {L}iyistona, and {H}yphaene. {M}ethods and {R}esults: {T}andem repeat motifs of 3-6 bp were searched using a simple sequence repeat ({SSR})-pipeline package in coding portions of the date palm draft genome sequence. {F}ifteen loci produced highly consistent amplification, intraspecitic polymorphisms, and stepwise mutation patterns. {C}onclusions: {T}hese microsatellite loci showed sufficient levels of variability and transferability to make them useful for population genetic, selection signature, and iinterspecific gene flow studies in {P}hoenix and other {C}oryphoideae genera.},
  keywords = {{A}recaceae ; {C}oryphoideae ; microsatellite/{SSR} mining ; {P}hoenix dactylifera ; transferability},
  booktitle = {},
  journal = {{A}pplications in {P}lant {S}ciences},
  volume = {2},
  numero = {1},
  pages = {art. 1300058 [5 ]},
  ISSN = {2168-0450},
  year = {2014},
  DOI = {10.3732/apps.1300058},
  URL = {https://www.documentation.ird.fr/hor/fdi:010062585},
}