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TCI Tokyo Chemical Industry 1 hexanol
Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, <t>1-hexanol,</t> and their mixture
1 Hexanol, supplied by TCI Tokyo Chemical Industry, used in various techniques. Bioz Stars score: 91/100, based on 3 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 91 stars, based on 3 article reviews
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1) Product Images from "Learning Modifies Odor Mixture Processing to Improve Detection of Relevant Components"

Article Title: Learning Modifies Odor Mixture Processing to Improve Detection of Relevant Components

Journal: The Journal of Neuroscience

doi: 10.1523/JNEUROSCI.2345-14.2015

Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, 1-hexanol, and their mixture
Figure Legend Snippet: Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, 1-hexanol, and their mixture

Techniques Used: Imaging, Mass Spectrometry

Changes of correlation between the responses to the mixture and the pure odors based on individual bee response profiles. A , Glomeruli were ranked according to the difference of response to acetophenone and 1-hexanol in each individual bee. Three groups
Figure Legend Snippet: Changes of correlation between the responses to the mixture and the pure odors based on individual bee response profiles. A , Glomeruli were ranked according to the difference of response to acetophenone and 1-hexanol in each individual bee. Three groups

Techniques Used:

2) Product Images from "Octopamine modulates activity of neural networks in the honey bee antennal lobe"

Article Title: Octopamine modulates activity of neural networks in the honey bee antennal lobe

Journal: Journal of Comparative Physiology. A, Neuroethology, Sensory, Neural, and Behavioral Physiology

doi: 10.1007/s00359-013-0805-y

The octopamine effect is variable across animals. The OA-mediated change in odor response (OA treatment response minus pretreatment response) resolved for different odors: 1-nonanol, 1-hexanol, 2-heptanone and different concentrations: 1-nonanol (separate measurement set), 10 −2 , 10 −3 and 10 −4 . Note that for all odors, OA-induced changes vary widely, with both positive and negative effects. This indicates that there is a high variability across animals, suggesting a role of individual network plasticity. Box plot with mean and quartiles, whiskers indicate the range (min–max or 1.5 × interquartile distance, whichever smaller), circles are values outside this range (outliers). For all odors, we show the same 189 glomeruli. Number of animals differs for glomerulus: mean = 8.59, SD = 2.72, required minimum for analysis was n = 5 animals
Figure Legend Snippet: The octopamine effect is variable across animals. The OA-mediated change in odor response (OA treatment response minus pretreatment response) resolved for different odors: 1-nonanol, 1-hexanol, 2-heptanone and different concentrations: 1-nonanol (separate measurement set), 10 −2 , 10 −3 and 10 −4 . Note that for all odors, OA-induced changes vary widely, with both positive and negative effects. This indicates that there is a high variability across animals, suggesting a role of individual network plasticity. Box plot with mean and quartiles, whiskers indicate the range (min–max or 1.5 × interquartile distance, whichever smaller), circles are values outside this range (outliers). For all odors, we show the same 189 glomeruli. Number of animals differs for glomerulus: mean = 8.59, SD = 2.72, required minimum for analysis was n = 5 animals

Techniques Used:

Octopamine modulates odor responses up and down. a False-color coded odor-response traces over time (time from left to right, odor 2-heptanone, one animal). Each line is one glomerulus; glomeruli are sorted by their response strength before treatment (“pre”, same order as in b ). Note that some glomeruli have longer responses than others, some have long-lasting inhibitory responses, and some have off-responses (i.e. calcium increase at odor-offset; these have generally weak odor-on responses). b , c , d Glomerular response strength to 2-heptanone ( b ), 1-hexanol ( c ), 1-nonanol ( d ) in the pre, 1 mM OA, 10 mM OA and wash conditions (one animal). For each plot, glomeruli are arranged according to response strength in the pre-condition. Note that most glomeruli increase their response to odor in the presence of OA ( blue bars ), and that negative responses are rare. However, some glomeruli decrease their response with OA (e.g. A28 to heptanone, A33 to nonanol). Compare with suppl. Fig. S1
Figure Legend Snippet: Octopamine modulates odor responses up and down. a False-color coded odor-response traces over time (time from left to right, odor 2-heptanone, one animal). Each line is one glomerulus; glomeruli are sorted by their response strength before treatment (“pre”, same order as in b ). Note that some glomeruli have longer responses than others, some have long-lasting inhibitory responses, and some have off-responses (i.e. calcium increase at odor-offset; these have generally weak odor-on responses). b , c , d Glomerular response strength to 2-heptanone ( b ), 1-hexanol ( c ), 1-nonanol ( d ) in the pre, 1 mM OA, 10 mM OA and wash conditions (one animal). For each plot, glomeruli are arranged according to response strength in the pre-condition. Note that most glomeruli increase their response to odor in the presence of OA ( blue bars ), and that negative responses are rare. However, some glomeruli decrease their response with OA (e.g. A28 to heptanone, A33 to nonanol). Compare with suppl. Fig. S1

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Article Title: Learning Modifies Odor Mixture Processing to Improve Detection of Relevant Components
Article Snippet: Odors used were 1-hexanol and acetophenone (both TCI America).

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    TCI Tokyo Chemical Industry 1 hexanol
    Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, <t>1-hexanol,</t> and their mixture
    1 Hexanol, supplied by TCI Tokyo Chemical Industry, used in various techniques. Bioz Stars score: 91/100, based on 4 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/1 hexanol/product/TCI Tokyo Chemical Industry
    Average 91 stars, based on 4 article reviews
    Price from $9.99 to $1999.99
    1 hexanol - by Bioz Stars, 2020-09
    91/100 stars
      Buy from Supplier

    85
    TCI Tokyo Chemical Industry isopropyl hexanoate
    Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, <t>1-hexanol,</t> and their mixture
    Isopropyl Hexanoate, supplied by TCI Tokyo Chemical Industry, used in various techniques. Bioz Stars score: 85/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/isopropyl hexanoate/product/TCI Tokyo Chemical Industry
    Average 85 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    isopropyl hexanoate - by Bioz Stars, 2020-09
    85/100 stars
      Buy from Supplier

    Image Search Results


    Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, 1-hexanol, and their mixture

    Journal: The Journal of Neuroscience

    Article Title: Learning Modifies Odor Mixture Processing to Improve Detection of Relevant Components

    doi: 10.1523/JNEUROSCI.2345-14.2015

    Figure Lengend Snippet: Imaging of odor elicited calcium signals in projection neurons. A , Color-coded calcium images represent the average of odor responses from 250 to 750 ms after odor onset. From left to right, Images are responses to acetophenone, 1-hexanol, and their mixture

    Article Snippet: Odors used were 1-hexanol and acetophenone (both TCI America).

    Techniques: Imaging, Mass Spectrometry

    Changes of correlation between the responses to the mixture and the pure odors based on individual bee response profiles. A , Glomeruli were ranked according to the difference of response to acetophenone and 1-hexanol in each individual bee. Three groups

    Journal: The Journal of Neuroscience

    Article Title: Learning Modifies Odor Mixture Processing to Improve Detection of Relevant Components

    doi: 10.1523/JNEUROSCI.2345-14.2015

    Figure Lengend Snippet: Changes of correlation between the responses to the mixture and the pure odors based on individual bee response profiles. A , Glomeruli were ranked according to the difference of response to acetophenone and 1-hexanol in each individual bee. Three groups

    Article Snippet: Odors used were 1-hexanol and acetophenone (both TCI America).

    Techniques:

    The octopamine effect is variable across animals. The OA-mediated change in odor response (OA treatment response minus pretreatment response) resolved for different odors: 1-nonanol, 1-hexanol, 2-heptanone and different concentrations: 1-nonanol (separate measurement set), 10 −2 , 10 −3 and 10 −4 . Note that for all odors, OA-induced changes vary widely, with both positive and negative effects. This indicates that there is a high variability across animals, suggesting a role of individual network plasticity. Box plot with mean and quartiles, whiskers indicate the range (min–max or 1.5 × interquartile distance, whichever smaller), circles are values outside this range (outliers). For all odors, we show the same 189 glomeruli. Number of animals differs for glomerulus: mean = 8.59, SD = 2.72, required minimum for analysis was n = 5 animals

    Journal: Journal of Comparative Physiology. A, Neuroethology, Sensory, Neural, and Behavioral Physiology

    Article Title: Octopamine modulates activity of neural networks in the honey bee antennal lobe

    doi: 10.1007/s00359-013-0805-y

    Figure Lengend Snippet: The octopamine effect is variable across animals. The OA-mediated change in odor response (OA treatment response minus pretreatment response) resolved for different odors: 1-nonanol, 1-hexanol, 2-heptanone and different concentrations: 1-nonanol (separate measurement set), 10 −2 , 10 −3 and 10 −4 . Note that for all odors, OA-induced changes vary widely, with both positive and negative effects. This indicates that there is a high variability across animals, suggesting a role of individual network plasticity. Box plot with mean and quartiles, whiskers indicate the range (min–max or 1.5 × interquartile distance, whichever smaller), circles are values outside this range (outliers). For all odors, we show the same 189 glomeruli. Number of animals differs for glomerulus: mean = 8.59, SD = 2.72, required minimum for analysis was n = 5 animals

    Article Snippet: Odorant stimulation We recorded the responses to the odorants 1-nonanol, 1-hexanol and 2-heptanone (all odorants from TCI, America).

    Techniques:

    Octopamine modulates odor responses up and down. a False-color coded odor-response traces over time (time from left to right, odor 2-heptanone, one animal). Each line is one glomerulus; glomeruli are sorted by their response strength before treatment (“pre”, same order as in b ). Note that some glomeruli have longer responses than others, some have long-lasting inhibitory responses, and some have off-responses (i.e. calcium increase at odor-offset; these have generally weak odor-on responses). b , c , d Glomerular response strength to 2-heptanone ( b ), 1-hexanol ( c ), 1-nonanol ( d ) in the pre, 1 mM OA, 10 mM OA and wash conditions (one animal). For each plot, glomeruli are arranged according to response strength in the pre-condition. Note that most glomeruli increase their response to odor in the presence of OA ( blue bars ), and that negative responses are rare. However, some glomeruli decrease their response with OA (e.g. A28 to heptanone, A33 to nonanol). Compare with suppl. Fig. S1

    Journal: Journal of Comparative Physiology. A, Neuroethology, Sensory, Neural, and Behavioral Physiology

    Article Title: Octopamine modulates activity of neural networks in the honey bee antennal lobe

    doi: 10.1007/s00359-013-0805-y

    Figure Lengend Snippet: Octopamine modulates odor responses up and down. a False-color coded odor-response traces over time (time from left to right, odor 2-heptanone, one animal). Each line is one glomerulus; glomeruli are sorted by their response strength before treatment (“pre”, same order as in b ). Note that some glomeruli have longer responses than others, some have long-lasting inhibitory responses, and some have off-responses (i.e. calcium increase at odor-offset; these have generally weak odor-on responses). b , c , d Glomerular response strength to 2-heptanone ( b ), 1-hexanol ( c ), 1-nonanol ( d ) in the pre, 1 mM OA, 10 mM OA and wash conditions (one animal). For each plot, glomeruli are arranged according to response strength in the pre-condition. Note that most glomeruli increase their response to odor in the presence of OA ( blue bars ), and that negative responses are rare. However, some glomeruli decrease their response with OA (e.g. A28 to heptanone, A33 to nonanol). Compare with suppl. Fig. S1

    Article Snippet: Odorant stimulation We recorded the responses to the odorants 1-nonanol, 1-hexanol and 2-heptanone (all odorants from TCI, America).

    Techniques: