Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods

Sujata Balasubramanian; Rachel Curtis-Robles; Bhagath Chirra; Lisa D. Auckland; Alan Mai; Virgilio Bocanegra-Garcia; Patti Clark; Wilhelmina Clark; Mark Cottingham; Geraldine Fleurie; Charles D. Johnson; Richard P. Metz; Shichen Wang; Nicholas J. Hathaway; Jeffrey A. Bailey; Gabriel L. Hamer; Sarah A. Hamer

doi:10.1038/s41598-022-14208-8

Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods

Sujata Balasubramanian, Rachel Curtis-Robles, Bhagath Chirra, Lisa D. Auckland, Alan Mai, Virgilio Bocanegra-Garcia, Patti Clark, Wilhelmina Clark, Mark Cottingham, Geraldine Fleurie, Charles D. Johnson, Richard P. Metz, Shichen Wang, Nicholas J. Hathaway, Jeffrey A. Bailey, Gabriel L. Hamer, Sarah A. Hamer

Centro de Biotecnología Genómica (CBG)

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Knowledge of host associations of blood-feeding vectors may afford insights into managing disease systems and protecting public health. However, the ability of methods to distinguish bloodmeal sources varies widely. We used two methods—Sanger sequencing and amplicon deep sequencing—to target a 228 bp region of the vertebrate Cytochrome b gene and determine hosts fed upon by triatomines (n = 115) collected primarily in Texas, USA. Direct Sanger sequencing of PCR amplicons was successful for 36 samples (31%). Sanger sequencing revealed 15 distinct host species, which included humans, domestic animals (Canis lupus familiaris, Ovis aries, Gallus gallus, Bos taurus, Felis catus, and Capra hircus), wildlife (Rattus rattus, Incilius nebulifer, Sciurus carolinensis, Sciurus niger, and Odocoileus virginianus), and captive animals (Panthera tigris, Colobus spp., and Chelonoidis carbonaria). Samples sequenced by the Sanger method were also subjected to Illumina MiSeq amplicon deep sequencing. The amplicon deep sequencing results (average of 302,080 usable reads per sample) replicated the host community revealed using Sanger sequencing, and detected additional hosts in five triatomines (13.9%), including two additional blood sources (Procyon lotor and Bassariscus astutus). Up to four bloodmeal sources were detected in a single triatomine (I. nebulifer, Homo sapiens, C. lupus familiaris, and S. carolinensis). Enhanced understanding of vector-host-parasite networks may allow for integrated vector management programs focusing on highly-utilized and highly-infected host species.

Original language	English
Article number	10234
Journal	Scientific Reports
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41598-022-14208-8
State	Published - Dec 2022

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Balasubramanian, S., Curtis-Robles, R., Chirra, B., Auckland, L. D., Mai, A., Bocanegra-Garcia, V., Clark, P., Clark, W., Cottingham, M., Fleurie, G., Johnson, C. D., Metz, R. P., Wang, S., Hathaway, N. J., Bailey, J. A., Hamer, G. L., & Hamer, S. A. (2022). Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods. Scientific Reports, 12(1), Article 10234. https://doi.org/10.1038/s41598-022-14208-8

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title = "Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods",

abstract = "Knowledge of host associations of blood-feeding vectors may afford insights into managing disease systems and protecting public health. However, the ability of methods to distinguish bloodmeal sources varies widely. We used two methods—Sanger sequencing and amplicon deep sequencing—to target a 228 bp region of the vertebrate Cytochrome b gene and determine hosts fed upon by triatomines (n = 115) collected primarily in Texas, USA. Direct Sanger sequencing of PCR amplicons was successful for 36 samples (31%). Sanger sequencing revealed 15 distinct host species, which included humans, domestic animals (Canis lupus familiaris, Ovis aries, Gallus gallus, Bos taurus, Felis catus, and Capra hircus), wildlife (Rattus rattus, Incilius nebulifer, Sciurus carolinensis, Sciurus niger, and Odocoileus virginianus), and captive animals (Panthera tigris, Colobus spp., and Chelonoidis carbonaria). Samples sequenced by the Sanger method were also subjected to Illumina MiSeq amplicon deep sequencing. The amplicon deep sequencing results (average of 302,080 usable reads per sample) replicated the host community revealed using Sanger sequencing, and detected additional hosts in five triatomines (13.9%), including two additional blood sources (Procyon lotor and Bassariscus astutus). Up to four bloodmeal sources were detected in a single triatomine (I. nebulifer, Homo sapiens, C. lupus familiaris, and S. carolinensis). Enhanced understanding of vector-host-parasite networks may allow for integrated vector management programs focusing on highly-utilized and highly-infected host species.",

author = "Sujata Balasubramanian and Rachel Curtis-Robles and Bhagath Chirra and Auckland, {Lisa D.} and Alan Mai and Virgilio Bocanegra-Garcia and Patti Clark and Wilhelmina Clark and Mark Cottingham and Geraldine Fleurie and Johnson, {Charles D.} and Metz, {Richard P.} and Shichen Wang and Hathaway, {Nicholas J.} and Bailey, {Jeffrey A.} and Hamer, {Gabriel L.} and Hamer, {Sarah A.}",

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Balasubramanian, S, Curtis-Robles, R, Chirra, B, Auckland, LD, Mai, A, Bocanegra-Garcia, V, Clark, P, Clark, W, Cottingham, M, Fleurie, G, Johnson, CD, Metz, RP, Wang, S, Hathaway, NJ, Bailey, JA, Hamer, GL & Hamer, SA 2022, 'Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods', Scientific Reports, vol. 12, no. 1, 10234. https://doi.org/10.1038/s41598-022-14208-8

TY - JOUR

T1 - Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods

AU - Balasubramanian, Sujata

AU - Curtis-Robles, Rachel

AU - Chirra, Bhagath

AU - Auckland, Lisa D.

AU - Mai, Alan

AU - Bocanegra-Garcia, Virgilio

AU - Clark, Patti

AU - Clark, Wilhelmina

AU - Cottingham, Mark

AU - Fleurie, Geraldine

AU - Johnson, Charles D.

AU - Metz, Richard P.

AU - Wang, Shichen

AU - Hathaway, Nicholas J.

AU - Bailey, Jeffrey A.

AU - Hamer, Gabriel L.

AU - Hamer, Sarah A.

PY - 2022/12

Y1 - 2022/12

N2 - Knowledge of host associations of blood-feeding vectors may afford insights into managing disease systems and protecting public health. However, the ability of methods to distinguish bloodmeal sources varies widely. We used two methods—Sanger sequencing and amplicon deep sequencing—to target a 228 bp region of the vertebrate Cytochrome b gene and determine hosts fed upon by triatomines (n = 115) collected primarily in Texas, USA. Direct Sanger sequencing of PCR amplicons was successful for 36 samples (31%). Sanger sequencing revealed 15 distinct host species, which included humans, domestic animals (Canis lupus familiaris, Ovis aries, Gallus gallus, Bos taurus, Felis catus, and Capra hircus), wildlife (Rattus rattus, Incilius nebulifer, Sciurus carolinensis, Sciurus niger, and Odocoileus virginianus), and captive animals (Panthera tigris, Colobus spp., and Chelonoidis carbonaria). Samples sequenced by the Sanger method were also subjected to Illumina MiSeq amplicon deep sequencing. The amplicon deep sequencing results (average of 302,080 usable reads per sample) replicated the host community revealed using Sanger sequencing, and detected additional hosts in five triatomines (13.9%), including two additional blood sources (Procyon lotor and Bassariscus astutus). Up to four bloodmeal sources were detected in a single triatomine (I. nebulifer, Homo sapiens, C. lupus familiaris, and S. carolinensis). Enhanced understanding of vector-host-parasite networks may allow for integrated vector management programs focusing on highly-utilized and highly-infected host species.

AB - Knowledge of host associations of blood-feeding vectors may afford insights into managing disease systems and protecting public health. However, the ability of methods to distinguish bloodmeal sources varies widely. We used two methods—Sanger sequencing and amplicon deep sequencing—to target a 228 bp region of the vertebrate Cytochrome b gene and determine hosts fed upon by triatomines (n = 115) collected primarily in Texas, USA. Direct Sanger sequencing of PCR amplicons was successful for 36 samples (31%). Sanger sequencing revealed 15 distinct host species, which included humans, domestic animals (Canis lupus familiaris, Ovis aries, Gallus gallus, Bos taurus, Felis catus, and Capra hircus), wildlife (Rattus rattus, Incilius nebulifer, Sciurus carolinensis, Sciurus niger, and Odocoileus virginianus), and captive animals (Panthera tigris, Colobus spp., and Chelonoidis carbonaria). Samples sequenced by the Sanger method were also subjected to Illumina MiSeq amplicon deep sequencing. The amplicon deep sequencing results (average of 302,080 usable reads per sample) replicated the host community revealed using Sanger sequencing, and detected additional hosts in five triatomines (13.9%), including two additional blood sources (Procyon lotor and Bassariscus astutus). Up to four bloodmeal sources were detected in a single triatomine (I. nebulifer, Homo sapiens, C. lupus familiaris, and S. carolinensis). Enhanced understanding of vector-host-parasite networks may allow for integrated vector management programs focusing on highly-utilized and highly-infected host species.

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DO - 10.1038/s41598-022-14208-8

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SN - 2045-2322

VL - 12

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 10234

ER -

Characterization of triatomine bloodmeal sources using direct Sanger sequencing and amplicon deep sequencing methods

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