DNA ZOO

Southern giant pouched rats (Cricetomys ansorgei), referred to as “Pouchies” due to the fact that they are only distantly related to conventional rats, are very large rodents best known for their powerful olfactory senses conferring the ability to reliably detect underground explosives such as TNT. In fact, this species is currently being trained and employed as biodetectors used to clear abandoned landmine fields in the wake of armed conflict.

Notably, in 2020, a Southern giant pouched rat became the first rodent to be awarded the PDSA Gold medal for animal bravery from the British organization the ‘People's Dispensary for Sick Animals’. During his career, ‘Magawa’ (internationally known as the ‘Hero rat’) was responsible for the detection and subsequent removal of at least 71 landmines, as well as dozens of other unexploded ordinance items from extremely dangerous abandoned mine fields in Cambodia. Further, this species’ utility as biodetectors may extend beyond explosives, as they are also able to detect subtle chemical signals indicative of Tuberculosis infection – a condition which is often cryptic and difficult to diagnose.

In addition to their impressive chemosensory prowess, Pouchies also exhibit a unique and interesting reproductive physiology. Similar to some other rodents, females are born lacking a vaginal opening, which typically appears as they reach sexual maturity. In Pouchies, this non-reproductive condition often uniquely persists for years into adulthood, and is even reversible, with adult females exhibiting vaginal openings completely covered by an area of skin, sometimes even after having previously given birth to a litter of pups. The mechanisms governing these unusually plastic reproductive developmental timelines appear to be, at least in part, mediated by pheromonal signals. Pheromonal communication is an important aspect of life for these interesting animals, enabling them to detect subtle differences in chemical social signals used to advertise sex, physiological state, and reproductive status through nothing more than urine.

Today, we release the chromosome-length assembly for the Southern giant pouched rats. This genome assembly was produced by Dr. Ehren Bentz and Dr. Alexander Ophir in the Psychology department at Cornell University in collaboration with DNA Zoo. Whole genome sequencing was performed by the University of Georgia Genomics and Bioinformatics Core using Pacific Biosciences continuous long read sequencing. Reads were error corrected and assembled using Canu (Koren et al., 2017), and contigs were anchored to scaffolds using in situ Hi-C sequencing (Rao, Huntley et al., 2014), 3D-DNA (Dudchenko et al., 2017) and Juicebox Assembly Tools (Dudchenko et al., 2018). The resulting chromosome-level scaffolds were then polished with PacBio long reads using Racon (Vaser, Sović et al., 2017). Check out the interactive JuiceBox.js session exploring the 40 chromosomes below!

The pouched rat’s extremely acute chemosensory abilities, as well as its unique reproductive physiology and social behaviors, provide a powerful, novel model for investigating olfactory communication, reproductive physiology, and development in an exotic rodent species with tremendous potential. This chromosome-length genome assembly surely constitutes an invaluable resource facilitating the development of the Pouched rat as both a research model and as a biodetector.

Funding for this work was provided by the Army Research Office and the National Science Foundation.

The Mongolian gerbil, Meriones unguiculatus, originated from the harsh highland region of Mongolia. In their natural habitats, they have to withstand major temperature shifts from -40°C in winter to 50°C in the summer [1]. But today, a large population of Mongolian gerbils find themselves inside the temperate homes of their owners or within the strictly controlled laboratory setting. Their scientific name in Latin, Meriones unguiculatus, directly translates into "little clawed warrior". However, the Mongolian gerbil is actually quite docile and calm, one of the reasons why they make such a great house pet and model species for research [2].

Today, we release the chromosome-length upgrade for the Mongolian gerbil, Meriones unguiculatus, based on the draft assembly by Cheng et. al (2019). The sample used for this upgrade was a primary fibroblast cell line provided by the T.C. Hsu Cryo-Zoo. We thank Drs. Asha Multani, Sen Pathak, Richard Behringer, Liesl Nel-Themaat and Arisa Furuta in the Department of Genetics at the MD Anderson Cancer Center for their help with this sample. This cell line was originally frozen back in 1978, check out how vigorously it cultured below!

Don't forget to explore the interactive contact map of the 22 chromosomes of Meriones unguiculatus, and visit the assembly page for more details!

We have released the chromosome-length assemblies for 3 other rodent species turned common house pets: the Chinese hamster (C. griseus), Golden hamster (M. auratus), and the Fat-tailed gerbil (P. duprasi). If you're broadly interested in rodents, you're in luck as we have a total of 23 rodent species assembled in our collection. Stay tuned for more releases for all kinds by subscribing to our mailing list below or following us on Twitter @thednazoo!

To celebrate the DNA Zoo's 200th mammalian species release, we proudly present not one, but three de novo primate genome assemblies for the gelada baboon (Theropithecus gelada), the siamang (Symphalangus syndactylus), and the talapoin monkey (Miopithecus talapoin)!

All three are exceptionally interesting monkeys! For example, the gelada baboon is the only grass grazing primates living today, thought to be the last of an ancient line of grass-eating primates [1]. The talapoin monkeys are the smallest of the Old World monkeys. They are also among the strongest swimmers of all primates [2]! Finally, the siamang, are capable of exceptionally loud vocalizations thanks to their inflatable throat sacs which can be heard from 2 miles away [3].

And all three are exceptionally interesting assemblies!

The siamang genome assembly was created thanks to a blood sample donation from Jambi, the siamang living at the Houston Zoo. (Check out this slide show of Jambi and her little family by the Houston Zoo!) On finalizing Jambi's assembly we discovered something unexpected. We have put together 25 long sequences, corresponding to 25 pairs chromosomes, one coming from Jambi's mom, and one from her dad. And just as with humans, we expected that the pairs of parental chromosomes would be nearly identical. Not so for Jambi. We saw major rearrangements between the maternal and paternal copies not for one but two chromosomes (see figure below)!

Interestingly, two subspecies of siamangs have been nominated, the the sumatran and the malaysian siamang, but we have not tracked that in the US population. Very likely there have been crosses between the populations, and Jambi may be a result of one (or several) of those crosses. Jambi's data may be a solid piece of data in support of the subspecies (if not species) nomination, and may actually suggest that the differences between the subpopulations may extend to large-scale differences in chromosome structure and explain some of the breeding difficulties! We look forward to exploring this question with more of our siamang samples and with phased analyses. (Send us siamang samples!)

The two other samples from today's release come from the T.C. Hsu Cryo-Zoo collection, and have been both sampled back in the late 1970s: 1978 for the gelada, and 1979 for the talapoin! The talapoin sample, an ear biopsy from a Louisiana Purchase Zoo at Monroe, LA, has been identified as southern (Angolan) talapoin, presumably based on morphological characteristics. The de novo mitochondrion assembly for the sample, however, places the sample more closely with the northern (Gabon) talapoin samples in the NCBI collection (see figure below). The same is true of at least one more sample among those available via NCBI (Tala). It is not yet clear if this suggests another hybridization even in the ex situ population. We look forward to figuring out this mystery out as we continue our primate research.

Finally, even our gelada sample was not without surprise, showing a 17Mb deletion in one of the haplotypes of chromosome 16. We suspect this to be a culturing artifact, but look forward to confirming this suspicion with new data.

Please send us more primate samples (including more individuals for the tree species from today's release) to help resolve these mysteries. Don't forget to browse the chromosome-length contact maps for the genomes below to see the contact data evidence for yourself. All three of today's chromosome-length assemblies follow the $1k method outlined in Dudchenko et al. 2018. (For more assembly procedure details, please see our Methods page.) We release also the mitochondrion assemblies for all three samples, available via respective assembly pages: here (T. gelada), here (S. syndactylus) and here (M. talapoin).

With these three samples we cross the mark of 200 assembled mammalian species! Thank you to our ever growing list of collaborators and the organizations that have provided invaluable support to create this encompassing dataset. Stay tuned for more chromosome-length mammal (and other) genomes by joining our mailing list below and following us on Twitter @thednazoo!