2011
DOI: 10.1186/1471-2164-12-420
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Transcriptomic analysis supports similar functional roles for the two thymuses of the tammar wallaby

Abstract: BackgroundThe thymus plays a critical role in the development and maturation of T-cells. Humans have a single thoracic thymus and presence of a second thymus is considered an anomaly. However, many vertebrates have multiple thymuses. The tammar wallaby has two thymuses: a thoracic thymus (typically found in all mammals) and a dominant cervical thymus. Researchers have known about the presence of the two wallaby thymuses since the 1800s, but no genome-wide research has been carried out into possible functional … Show more

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Cited by 21 publications
(10 citation statements)
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“…In marsupials with both types of thymus, the tissues appear to be histologically identical and to have the same function, but the cervical thymus is larger, and development of the thoracic thymus lags behind that of the cervical thymus (Stanley et al, ). Consistent with previous reports that in those animals that possess both cervical and thoracic thymi these tissues have identical histology and function, Wong et al () reported that the transcriptome of the cervical and thoracic thymus of the tammar wallaby both display gene expression profiles that are consistent with their roles in T‐cell development and provides further evidence that the two thymi are functionally equivalent and both drive T‐cell development. Further, all major TCR classes were expressed in both thymi, as well as RAG‐1 and RAG‐2 transcripts (Wong et al, ), genes that are involved in the rearrangement and recombination of T‐cell receptors and immunoglobulin molecules.…”
Section: Thymussupporting
confidence: 87%
“…In marsupials with both types of thymus, the tissues appear to be histologically identical and to have the same function, but the cervical thymus is larger, and development of the thoracic thymus lags behind that of the cervical thymus (Stanley et al, ). Consistent with previous reports that in those animals that possess both cervical and thoracic thymi these tissues have identical histology and function, Wong et al () reported that the transcriptome of the cervical and thoracic thymus of the tammar wallaby both display gene expression profiles that are consistent with their roles in T‐cell development and provides further evidence that the two thymi are functionally equivalent and both drive T‐cell development. Further, all major TCR classes were expressed in both thymi, as well as RAG‐1 and RAG‐2 transcripts (Wong et al, ), genes that are involved in the rearrangement and recombination of T‐cell receptors and immunoglobulin molecules.…”
Section: Thymussupporting
confidence: 87%
“…In these species the cervical thymus matures earlier in postnatal development than the thoracic thymus, and the two thymuses appear to be functionally redundant (Stanley et al 1972; Ashman et al 1977; Basden et al 1996; Wong et al 2011; Duncan et al 2012). Previous attempts to detect the initiation of T cell development in perinatal Australasian marsupials have not been fruitful.…”
Section: Discussionmentioning
confidence: 99%
“…To find support for the expression of UTs in several marsupials, sequencing data from the following immune tissue cDNA or Expressed Sequence Tag (EST) libraries were searched: Roche 454 sequencing data from tammar wallaby, Macropus eugenii , thoracic and cervical thymus cDNA libraries [GenBank:SRX019250,SRX019249] [ 41 ]; Roche 454 sequencing data from Tasmanian devil, Sarcophilus harisii , spleen and lymph node cDNA libraries [EMBL:PRJEB7940]; Roche 454 sequencing data from the opossum, Monodelphis domestica , thymus cDNA libraries (Katina Krasnec and Robert Miller, unpublished data); 17,818 ESTs from brushtail possum, Trichosurus vulpecula, spleen, lymph node and stimulated splenocytes [GenBank:LIBEST_019237]; and a small set of 1319 ESTs from a northern brown bandicoot, Isoodon macrourus, thymus ESTs [GenBank:EE743888-EE745206] [ 42 ].…”
Section: Methodsmentioning
confidence: 99%