Papers in the Biological Sciences

 

Date of this Version

4-2018

Citation

Published in Journal of Insect Physiology 107 (2018), pp 233–243.

doi 10.1016/j.jinsphys.2018.04.003

Comments

Copyright © 2018 Elsevier Ltd. Used by permission.

Abstract

The functional basis of life history adaptation is a key topic of research in life history evolution. Studies of wing polymorphism in the cricket Gryllus firmus have played a prominent role in this field. However, prior in-depth investigations of morph specialization have primarily focused on a single hormone, juvenile hormone, and a single aspect of intermediary metabolism, the fatty-acid biosynthetic component of lipid metabolism. Moreover, the role of diurnal variation in life history adaptation in G. firmus has been understudied, as is the case for organisms in general. Here, we identify genes whose expression differs consistently between the morphs independent of time-of-day during early adulthood, as well as genes that exhibit a strong pattern of morph-specific diurnal expression. We find strong, consistent, morph-specific differences in the expression of genes involved in endocrine regulation, carbohydrate and lipid metabolism, and immunity – in particular, in the expression of an insulin-like-peptide precursor gene and genes involved in triglyceride production. We also find that the flight-capable morph exhibited a substantially greater number of genes exhibiting diurnal change in gene expression compared with the flightless morph, correlated with the greater circadian change in the hemolymph juvenile titer in the dispersing morph. In fact, diurnal differences in expression within the dispersing morph at different times of the day were significantly greater in magnitude than differences between dispersing and flightless morphs at the same time-of-day. These results provide important baseline information regarding the potential role of variable gene expression on life history specialization in morphs of G. firmus, and the first information on genetically-variable, diurnal change in gene expression, associated with a key life history polymorphism. These results also suggest the existence of prominent morph-specific circadian differences in gene expression in G. firmus, possibly caused by the morph-specific circadian rhythm in the juvenile hormone titer.

Nine supplemental files attached below.

Zera JIP 2018 Diurnal and developmental SUPPL 1.docx (12 kB)
Supplementary data 1. List of primers designed for qRT-PCR. Word document (12KB)

Zera JIP 2018 Diurnal and developmental SUPPL 2.xlsx (41 kB)
Supplementary data 2. Comparison of gene expression differences between the LW(f) and SW morphs of G. firmus measured early in the photophase (AM) of day 5 of adulthood. Spreadsheet (41KB)

Zera JIP 2018 Diurnal and developmental SUPPL 3.xlsx (42 kB)
Supplementary data 3. Comparison of gene expression differences between LW(f) and SW morphs measured late in the photophase (PM) of day 5 of adulthood. Spreadsheet (43KB)

Zera JIP 2018 Diurnal and developmental SUPPL 4.xlsx (136 kB)
Supplementary data 4. Comparison of gene expression differences in the LW(f) morph of G. firmus between early (AM) and late (PM) in the photophase of day 5 of adulthood. Spreadsheet (136KB)

Zera JIP 2018 Diurnal and developmental SUPPL 5.xlsx (47 kB)
Supplementary data 5. Comparison of gene expression differences in the SW morph of G. firmus between early (AM) and late (PM) in the photophase of day 5 of adulthood. Spreadsheet (48KB)

Zera JIP 2018 Diurnal and developmental SUPPL 6.xlsx (18 kB)
Supplementary data 6. Genes that were commonly upregulated in the late photophase (PM) of the 5th day of adulthood in SW nd LW(f) morphs. Spreadsheet (19KB)

Zera JIP 2018 Diurnal and developmental SUPPL 7.xlsx (16 kB)
Supplementary data 7. Genes that were commonly upregulated in the early photophase (AM) of the 5th day of adulthood in SW and LW(f) morphs. Spreadsheet (16KB)

Zera JIP 2018 Diurnal and developmental SUPPL 8.docx (14 kB)
Supplementary data 8. Characterization of gene expression in LW(f) and SW lines of G. firmus as being cyclic or non-cyclic using the “more stringent” or “less stringent” criteria than those used in the “standard” method. Word document (15KB)

Zera JIP 2018 Diurnal and developmental SUPPL 9.docx (16 kB)
Supplementary data 9. Mean expression (±SEM) of nine genes in two pairs of LW(f) and SW selected lines that were used to construct Figs. 3–5. Word document (17KB)

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