CLASS 546, ORGANIC COMPOUNDS -- PART OF THE CLASS 532-570 SERIES |
ORGANIC COMPOUNDS (CLASS 532, SUBCLASS 1) |
This subclass has no definition. | |
. HETEROCYCLIC CARBON COMPOUNDS CONTAINING A HETERO RING HAVING CHALCOGEN (I.E., OXYGEN, SULFUR, SELENIUM, OR TELLURIUM) OR NITROGEN AS THE ONLY RING HETERO ATOMS (Class 540, subclass 1) |
This subclass has no definition. | |
1 | .. Hetero ring is six-membered consisting of one nitrogen and five carbons: |
This subclass is indented under subclass 1. Compounds under Class 540, ... which contain a six-membered
hetero ring consisting of one nitrogen and five carbon atoms.
SEE OR SEARCH CLASS:
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2 | ... Heavy metal or aluminum containing: |
This subclass is indented under subclass 1. Compounds which include aluminum or a metal having a specific
gravity greater than four.
SEE OR SEARCH THIS CLASS, SUBCLASS:
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3 | .... Arsenic containing: |
This subclass is indented under subclass 2. Compounds which contain arsenic. | |
4 | .... The metal bonded directly to carbon, which carbon is a ring carbon of the six-membered hetero ring or which carbon is attached directly or indirectly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 2. Compounds wherein the metal is bonded directly (a) to a
ring carbon of the six-membered hetero ring, or (b) to a carbon
atom which additionally is attached directly or indirectly to the
six-membered hetero ring by nonionic bonding.
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5 | .... The metal is bonded directly to chalcogen of a -C(=X)X- group, wherein the X"s are the same or diverse chalcogens, which group is attached directly or indirectly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 2. Compounds wherein the metal is bonded directly to the singly
bonded chalcogen of a group, in which the X"s are the
same or diverse chalcogens (i.e., oxygen, sulfur, selenium, or tellurium),
which group is additionally attached directly or indirectly to the
six-membered hetero ring by nonionic bonding.
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6 | .... The metal is bonded directly to chalcogen which chalcogen is attached directly or indirectly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 2. Compounds wherein the metal is bonded directly to a chalcogen
(i.e., oxygen, sulfur, selenium, or tellurium) which is attached directly
or indirectly to the six-membered hetero ring by nonionic bonding.
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7 | ..... The chalcogen is bonded directly to ring carbon of a quinoline ring system (including hydrogenated): |
This subclass is indented under subclass 6. Compounds wherein the chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is attached directly to a ring carbon of a quinoline
ring system; said ring system, having the following basic structure,
may contain double bonds between ring members:
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8 | .... The metal is in an anion and the six-membered hetero ring is in a cation: |
This subclass is indented under subclass 2. Compounds wherein the metal is in an anion, i.e., a group
with a negative charge, and the six-membered hetero ring is in a
cation, i.e., a group with a positive charge.
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9 | ..... The metal is bonded directly to halogen in the anion: |
This subclass is indented under subclass 8. Compounds in which the metal in the anion is bonded directly
to halogen; i.e., a metal-halogen bond.
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10 | .... Polycyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 2. Compounds wherein the six-membered hetero ring is a cyclo
in a polycyclo ring system.
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11 | .... Piperidine containing: |
This subclass is indented under subclass 2. Compounds which contain a piperidine ring, i.e., a six-membered hetero ring consisting of one ring nitrogen and five ring carbons with no double bonds between ring members. | |
12 | .... Azide or acyclic nitrogen containing: |
This subclass is indented under subclass 2. Compounds which contain an acyclic nitrogen atom or an azide
group.
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13 | ... Boron containing: |
This subclass is indented under subclass 1. Compounds which contain boron.
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14 | ... Silicon containing: |
This subclass is indented under subclass 1. Compounds which contain silicon.
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15 | ... Spiro: |
This subclass is indented under subclass 1. Compounds which contain a spiro ring system.
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16 | .... The spiro includes the six-membered hetero ring: |
This subclass is indented under subclass 15. Compounds wherein at least one of the rings in the spiro
ring system is the six-membered hetero ring which consists of one
ring nitrogen and five ring carbons.
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17 | ..... Polycyclo ring system having one of the two rings which form the spiro as one of the cyclos: |
This subclass is indented under subclass 16. Compounds wherein one of the two rings which form the spiro
ring system is additionally one of the cyclos of a polycyclo ring
system.
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18 | ...... Polycyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 17. Compounds wherein the six-membered hetero ring is one of
the cyclos of the polycyclo ring system.
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19 | ..... At Least three ring hetero atoms in the two rings which form the spiro: |
This subclass is indented under subclass 16. Compounds wherein the spiro ring system contains at least
two ring hetero atoms in addition to the ring nitrogen of the six-membered
hetero ring.
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20 | ...... At least three ring nitrogens in the two rings which form the spiro: |
This subclass is indented under subclass 19. Compounds wherein the spiro ring system includes at least
two ring nitrogen atoms in addition to the one ring nitrogen of
the six-membered hetero ring.
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21 | ... Phosphorus attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 1. Compounds wherein phosphorus is attached directly to the
six-membered hetero ring by nonionic bonding.
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22 | ... Phosphorus attached indirectly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 1. Compounds wherein phosphorus is attached indirectly to the
six-membered hetero ring by nonionic bonding.
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23 | .... Polycyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 22. Compounds wherein the six-membered hetero ring is one of
the cyclos of a polycyclo ring system.
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24 | .... Chalcogen bonded directly to ring carbon fo the six-membered hetero ring: |
This subclass is indented under subclass 22. Compounds wherein chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is bonded directly to a ring carbon of the six-membered hetero
ring.
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25 | ..... The phosphorus is bonded directly to the chalcogen: |
This subclass is indented under subclass 24. Compounds in which the phosphorus is bonded directly to
the chalcogen (i.e., oxygen, sulfur, selenium, or tellurium).
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26 | ... Polycyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 1. Compounds wherein the six-membered hetero ring is one of
the cyclos of a polycyclo ring system.
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27 | .... The polycyclo ring system has at least ten cyclos and at least four ring nitrogens: |
This subclass is indented under subclass 26. Compounds wherein the polycyclo ring system contains at
least ten cyclos and at least four ring nitrogens.
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28 | .... Nonacyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of
exactly nine rings.
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29 | ..... The six-membered hetero ring shares ring nitrogen with a five-membered cyclo which contains additional ring nitrogen: |
This subclass is indented under subclass 28. Compounds wherein the nitrogen atom of the six-membered
hetero ring is also a member of a five-membered cyclo which contains
additional ring nitrogen.
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30 | .... Octacyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of
exactly eight rings.
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31 | ..... Plural ring hetero atoms in the octacyclo ring system (e.g., flavanthrone, cepharanthrine, etc.): |
This subclass is indented under subclass 30. Compounds wherein the octacyclo ring system includes at
least one ring hetero atom in addition to the ring nitrogen of the
six-membered hetero ring.
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32 | ...... At least four ring nitrogens in the octacyclo ring system (e.g., naphthoylene dibenzimidazole, etc.): |
This subclass is indented under subclass 31. Compounds wherein the octacyclo ring system contains at
least four ring nitrogens.
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33 | .... Heptacyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of
exactly seven rings.
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34 | ..... Two of the cyclos share at least three ring members (e.g., protoveratrine, etc.): |
This subclass is indented under subclass 33. Compounds wherein at least three ring members of one cyclo
are ring members of an additional cyclo in the heptacyclo ring system
(i.e., bridged).
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35 | ...... At least three ring hetero atoms in the heptacyclo ring system: |
This subclass is indented under subclass 34. Compounds wherein the heptacyclo ring system includes at
least two ring hetero atoms in addition to the ring nitrogen of
the six-membered hetero ring.
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36 | ..... Plural ring hetero atoms in the heptacyclo ring system: |
This subclass is indented under subclass 33. Compounds wherein the heptacyclo ring system includes at
least one ring hetero atom in addition to the ring nitrogen of the
six-membered hetero ring.
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37 | ...... Ring carbon is shared by three of the cyclos (e.g., perylene tetracarboxylic acid diimide, etc.): |
This subclass is indented under subclass 36. Compounds wherein one ring carbon is a member of three of
the cyclos in the heptacyclo ring system (i.e., peri-fusion).
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38 | .... Hexacyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of
exactly six rings.
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39 | ..... Two of the cyclos share at least three ring members (e.g., etheno morphides, etc.): |
This subclass is indented under subclass 38. Compounds wherein at least three ring members of one cyclo
are ring members of an additional cyclo in the hexacyclo ring system
(i.e., bridged).
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40 | ...... Plural ring nitrogens in the hexacyclo ring system (e.g., reserpic acid lactone, etc.): |
This subclass is indented under subclass 39. Compounds wherein the hexacyclo ring system includes at
least two ring nitrogens.
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41 | ..... Plural ring hetero atoms in the hexacyclo ring system: |
This subclass is indented under subclass 38. Compounds wherein the hexacyclo ring system contains at
least one ring hetero atom in addition to the ring nitrogen in the
six-membered hetero ring.
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42 | .... Pentacyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of exactly five rings. | |
43 | ..... Two of the cyclos share at least three ring members (i.e., bridged): |
This subclass is indented under subclass 42. Compounds wherein at least three ring members of one cyclo
are ring members of an additional cyclo in the pentacyclo ring system
(i.e., bridged).
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44 | ...... One of the five cyclos is five-membered and includes ring chalcogen (e.g., codeine, morphine, etc.): |
This subclass is indented under subclass 43. Compounds wherein one of the cyclos of the pentacyclo ring
system is a five-membered hetero ring which contains ring chalcogen
(i.e., oxygen, sulfur, selenium, or tellurium).
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45 | ....... Nitrogen or divalent chalcogen double bonded directly to carbocyclic ring of the pentacyclo ring system (e.g., morphinones, etc): |
This subclass is indented under subclass 44. Compounds wherein a nitrogen atom or a divalent chalcogen
(i.e., oxygen, sulfur, selenium, or tellurium) is attached directly
by a double bond to a carbocyclic ring of the pentacyclo ring system.
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46 | ....... A Single chalcogen is bonded directly to ring carbon of the pentacyclo ring system (e.g., desoxy morphine, etc): |
This subclass is indented under subclass 44. Compounds wherein exactly one chalcogen atom (i.e., oxygen,
sulfur, selenium, or tellurium) is bonded directly to a ring carbon
of the pentacyclo ring system.
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47 | ..... Plural ring hetero atoms in the pentacyclo ring system: |
This subclass is indented under subclass 42. Compounds wherein the pentacyclo ring system contains at
least one ring hetero atom in addition to the ring nitrogen of the
six-membered hetero ring.
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48 | ...... Three or more ring hetero atoms in the pentacyclo ring system: |
This subclass is indented under subclass 47. Compounds wherein the pentacyclo ring system contains at
least two ring hetero atoms in addition to the ring nitrogen of
the six-membered hetero ring.
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49 | ...... Two ring nitrogens in the pentacyclo ring system (e.g., quinacridones, etc.): |
This subclass is indented under subclass 47. Compounds wherein the pentacyclo ring system contains exactly
two ring nitrogens.
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50 | ....... Ring nitrogen is shared by two of the cyclos (e.g., yohimbanes, etc.): |
This subclass is indented under subclass 49. Compounds wherein a ring nitrogen is a member of two of
the cyclos in the pentacyclo ring system.
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51 | ........ Ring nitrogen is shared by five-membered cyclo and six-membered cyclo (e.g., vincamine, etc.): |
This subclass is indented under subclass 50. Compounds wherein the ring nitrogen of the six membered
hetero ring is additionally a member of a five-membered cyclo in
the pentacyclo ring system.
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52 | ......... Additional ring nitrogen in the five-membered cyclo: |
This subclass is indented under subclass 51. Compounds in which the five-membered ring contains additional
ring nitrogen.
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53 | ........ Having -C(=X)-; wherein x is chalcogen, bonded directly to ring carbon of the pentacyclo ring system and also bonded directly to chalcogen or nitrogen: |
This subclass is indented under subclass 50. Compounds in which a group, wherein X is chalcogen (i.e.,
oxygen, sulfur, selenium, or tellurium) is bonded directly both
to a ring carbon of the pentacyclo ring system and to a chalcogen
or nitrogen atom.
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54 | ......... Plural chalcogens bonded directly to the same cyclo as is the -C(=X)- group: |
This subclass is indented under subclass 53. Compounds wherein at least two chalcogens (i.e., oxygen,
sulfur, selenium, or tellurium) are bonded directly to the same
cyclo as is the group.
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55 | .......... Trialkoxybenzoyl bonded directly to at least one of the chalcogens (e.g., reserpine, etc.): |
This subclass is indented under subclass 54. Compounds in which bonded directly to at least one of the
chalcogens (i.e., oxygen, sulfur, selenium, or tellurium) is a trialkoxybenzoyl
group, i.e.,
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56 | ....... Three or more ring carbons of the pentacyclo ring system are substituted (e.g., substituted quinacridones, etc.): |
This subclass is indented under subclass 49. Compounds which contain substituents (other than hydrogen)
on at least three of the ring carbons of the pentacyclo ring system.
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57 | ........ Three or more chalcogens containing: |
This subclass is indented under subclass 56. Compounds which contain at least three chalcogens (i.e.,
oxygen, sulfur, selenium, or tellurium).
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58 | ..... The pentacyclo ring system consists of five six-membered cyclos (e.g., anthraquinone-benzacridones, etc): |
This subclass is indented under subclass 42. Compounds wherein the pentacyclo ring system consists of five six-membered cyclos. | |
59 | ...... Nitrogen attached directly to the pentacyclo ring system by nonionic bonding: |
This subclass is indented under subclass 58. Compounds wherein nitrogen is attached directly to the pentacyclo
ring system by nonionic bonding.
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60 | ....... An additional ring is bonded directly to the nitrogen: |
This subclass is indented under subclass 59. Compounds in which an additional ring is bonded directly
to the nitrogen.
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61 | .... Tetracyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the poly-cyclo ring system consists of exactly four rings. | |
62 | ..... Plural ring hetero atoms in the tetracyclo ring system (e.g., acronycines, etc.): |
This subclass is indented under subclass 61. Compounds wherein the tetracyclo ring system contains at
least one ring hetero atom in addition to the ring nitrogen of the
six-membered hetero ring.
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63 | ...... Two of the cyclos share at least three ring members (i.e., bridged): |
This subclass is indented under subclass 62. Compounds wherein at least three ring members of one cyclo
are ring members of an additional cyclo in the tetracyclo ring system
(i.e., bridged).
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64 | ...... Three or more ring hetero atoms in the tetracyclo ring system: |
This subclass is indented under subclass 62. Compounds wherein the tetracyclo ring system contains at
least two ring hetero atoms in addition to the ring nitrogen of
the six-membered hetero ring.
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65 | ....... Plural ring chalcogens in the tetracyclo ring system: |
This subclass is indented under subclass 64. Compounds wherein the tetracyclo ring system contains at
least two ring chalcogens (i.e., oxygen, sulfur, selenium, or tellurium).
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66 | ...... Ring carbon is shared by three of the cyclos: |
This subclass is indented under subclass 62. Compounds wherein one ring carbon is a member of three of
the cyclos in the tetracyclo ring system (i.e., peri-fusion).
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67 | ....... The three cyclos consist of two carbocyclic rings and a five-membered hetero ring which includes a ring nitrogen (e.g., ergolines, etc.): |
This subclass is indented under subclass 66. Compounds wherein the three cyclos which share the ring
carbon consist of two carbocyclic rings and one five-membered hetero
ring which contains a ring nitrogen.
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68 | ........ Chalcogen or nitrogen bonded directly to ring carbon of the six-membered hetero ring: |
This subclass is indented under subclass 67. Compounds wherein chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) or nitrogen is bonded directly to a ring carbon of
the six-membered hetero ring.
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69 | ........ Having -C(=X)-, wherein X is chalcogen, bonded directly to the six-membered hetero ring (e.g., lysergic acid, etc.): |
This subclass is indented under subclass 67. Compounds wherein a group, in which X is chalcogen
(i.e., oxygen, sulfur, selenium, or tellurium), is bonded directly
to the six-membered hetero ring.
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70 | ...... Two ring nitrogens in the tetracyclo ring system: |
This subclass is indented under subclass 62. Compounds in which the tetracyclo ring system contains exactly
two ring nitrogens.
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71 | ..... Ring nitrogen is shared by two of the cyclos: |
This subclass is indented under subclass 61. Compounds wherein the ring nitrogen of the six-membered
hetero ring is a member of an additional cyclo in the tetracyclo
ring system.
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72 | ...... Two of the cyclos share at least three ring members or a ring carbon is shared by three of the cyclos (i.e., bridged or peri-fused): |
This subclass is indented under subclass 71. Compounds wherein at least three ring members of one cyclo
are ring members of an additional cyclo or a ring carbon is a member
of three of the cyclos in the tetracyclo ring system (i.e., bridged
or peri-fused).
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73 | ...... The six-membered hetero ring shares ring members with one other cyclo only (e.g., pyrrocolines, etc.): |
This subclass is indented under subclass 71. Compounds wherein ring members of the six-membered hetero
ring are ring members of one additional cyclo only in the tetracyclo
ring system.
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74 | ..... Two of the cyclos share at least three ring members (e.g., morphinans, etc.): |
This subclass is indented under subclass 61. Compounds wherein at least three ring members of one cyclo
are ring members of an additional cyclo in the tetracyclo ring system
(i.e., bridged).
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75 | ..... Ring carbon is shared by three of the cyclos: |
This subclass is indented under subclass 61. Compounds wherein one ring carbon is a member of three of
the cyclos in the tetracyclo ring system (i.e., peri-fusion).
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76 | ...... Chalcogen bonded directly to ring carbon of the six-membered hetero ring (e.g., anthrapyridones, etc.): |
This subclass is indented under subclass 75. Compounds wherein chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is bonded directly to a ring carbon of the six-membered hetero
ring.
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77 | ..... The six-membered hetero ring shares ring members with one other cyclo only: |
This subclass is indented under subclass 61. Compounds wherein ring members of the six-membered hetero
ring are ring members of one additional cyclo only in the tetracyclo
ring system.
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78 | ...... Plural chalcogens bonded directly to carbocyclic rings of the tetracyclo ring system (e.g., pyridoanthraquinones, etc.): |
This subclass is indented under subclass 77. Compounds wherein at least two chalcogens (i.e., oxygen,
sulfur, selenium, or tellurium) are bonded directly to carbocyclic
rings of the tetracyclo ring system.
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79 | .... Tricyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of exactly three rings. | |
80 | ..... Plural ring hetero atoms in the tricyclo ring system: |
This subclass is indented under subclass 79. Compounds wherein the tricyclo ring system contains at least
one ring hetero atom in addition to the ring nitrogen of the six-membered hetero
ring.
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81 | ...... Plural ring nitrogens in the tricyclo ring system: |
This subclass is indented under subclass 80. Compounds wherein the tricyclo ring system contains at least
two ring nitrogens.
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82 | ....... Three or more ring hetero atoms in the tricyclo ring system: |
This subclass is indented under subclass 81. Compounds wherein the tricyclo ring system contains at least
one additional ring hetero atom.
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83 | ........ At least one of the ring hetero atoms is chalcogen: |
This subclass is indented under subclass 92. Compounds wherein at least one of the additional ring hetero
atoms is chalcogen (i.e., oxygen, sulfur, selenium, or tellurium).
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84 | ....... One of the cyclos is five-membered: |
This subclass is indented under subclass 81. Compounds wherein one of the cyclos of the tricyclo ring
system to five-membered.
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85 | ........ The six-membered hetero ring shares ring members with the five-membered cyclo only (e.g., pyrido-indoles, etc.): |
This subclass is indented under subclass 84. Compounds in which the six-membered hetero ring has ring
members in common with the five-membered ring only in the tricyclo
ring system.
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86 | ......... Chalcogen bonded directly to ring carbon of the tricyclo ring system: |
This subclass is indented under subclass 85. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is bonded directly to ring carbon of the tricyclo
ring system.
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87 | ......... Nitrogen attached directly or indirectly to the tricyclo ring system by nonionic bonding: |
This subclass is indented under subclass 85. Compounds in which nitrogen is attached directly or indirectly
to the tricyclo ring system by nonionic bonding.
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88 | ....... Phenanthrolines (including hydrogenated): |
This subclass is indented under subclass 81. Compounds wherein the tricyclo ring system consists of three
six-membered rings forming the phenanthrene configuration in which
two ring carbons have been replaced by ring nitrogens; said ring
system may contain double bonds between ring members.
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89 | ...... Ring oxygen in the tricyclo ring system: |
This subclass is indented under subclass 80. Compounds in which the tricyclo ring system contains ring
oxygen.
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90 | ....... Plural ring oxygens in the tricyclo ring system: |
This subclass is indented under subclass 89. Compounds in which the tricyclo ring system contains at
least two ring oxygens.
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91 | ....... Tropane and oxirane in the tricyclo ring system: |
This subclass is indented under subclass 89. Compounds wherein the tricyclo ring system consists of the
tropane and oxirane nuclei.
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92 | ....... Plural chalcogens bonded directly to ring carbons of the tricyclo ring system: |
This subclass is indented under subclass 89. Compounds wherein at least two chalcogens (i.e., oxygen,
sulfur, selenium, or tellurium) are bonded directly to ring carbons
of the tricyclo ring system.
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93 | ..... One of the cyclos has at least seven members: |
This subclass is indented under subclass 79. Compounds wherein one of the cyclos of the tricyclo ring
system has at least seven members.
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94 | ..... Ring nitrogen is shared by two of the cyclos: |
This subclass is indented under subclass 79. Compounds wherein the ring nitrogen is a member of two of
the cyclos in the tricyclo ring system.
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95 | ...... Benzo (a) quinolizines (including hydrogenated): |
This subclass is indented under subclass 94. Compounds wherein the tricyclo ring system has the following basic structure, which may contain double bonds between ring members: | |
96 | ....... Additional polycyclo ring system having ring nitrogen (e.g., emetine, etc.): |
This subclass is indented under subclass 95. Compounds which contain an additional polycyclo ring system
having ring nitrogen.
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97 | ..... Two of the cyclos share at least three ring carbons (e.g., benzomorphans, etc.): |
This subclass is indented under subclass 79. Compounds wherein at least three ring carbons of one cyclo
are ring carbons of an additional cyclo in the tricyclo ring system
(i.e., bridged).
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98 | ..... Ring carbon is shared by each of the three cyclos (e.g., 1,8-naphthalimides, etc.): |
This subclass is indented under subclass 79. Compounds wherein a ring carbon is a member of each of the
cyclos of the tricyclo ring system.
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99 | ...... Nitrogen, other than as nitro or nitroso, attached directly or indirectly to the tricyclo ring system by nonionic bonding: |
This subclass is indented under subclass 98. Compojnds wherein nitrogen, except as a member of the nitro
(-NO2) or nitro-so (-NO) group, is attached
directly or indirectly to the tricyclo ring system by nonionic bonding.
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100 | ....... The Nitrogen is bonded directly to a carbocyclic ring of the tricyclo ring system: |
This subclass is indented under subclass 99. Compounds in which the nitrogen is bonded directly to a carbocyclic ring of the tricyclo ring system. | |
101 | ..... Each of the three cyclos is six-membered (e.g., benzoquinolines, etc.): |
This subclass is indented under subclass 79. Compounds wherein the tricyclo ring system consists of three
six-membered rings.
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102 | ...... Acridines (including hydrogenated): |
This subclass is indented under subclass 101. Compounds wherein the tricyclo ring system has the following basic structure, which may contain double bonds between ring members: | |
103 | ....... Chalcogen bonded directly to ring carbon of the six-membered hetero ring: |
This subclass is indented under subclass 102. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium, or tellurium) is bonded directly to ring carbon of the six-membered hetero ring. | |
104 | ....... Nitrogen, other than as nitro or nitroso, attached directly or indirectly to the acridine ring system by nonionic bonding: |
This subclass is indented under subclass 102. Compounds in which nitrogen, except as a member of the nitro
(-NO2) or nitroso (-NO) group, is attached
directly or indirectly to the acridine ring system by nonionic bonding.
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105 | ........ The nitrogent is bonded directly to ring carbon of the six-membered hetero ring: |
This subclass is indented under subclass 104. Compounds in which the nitrogen is bonded directly to ring carbon of the six-membered hetero ring. | |
106 | ......... The nitrogen is part of a substituent which contains additional nonionically bonded nitrogen: |
This subclass is indented under subclass 105. Compounds wherein the nitrogen is a member of a group containing
additional nitrogen which is attached by nonionic bonding to the acridine
ring system.
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107 | ........ Plural nitrogens, other than as nitro or nitroso, attached directly to the carbocyclic rings of the acridine ring system (e.g., 3, 6-diaminoacridines, etc.): |
This subclass is indented under subclass 104. Compounds wherein at least two nitrogens, except as members
of the nitro (-NO) or nitroso (-NO) group, are attached directly
to the carbocyclic rings of the acridine ring system.
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108 | ...... Phenanthridines (including hydrogenated): |
This subclass is indented under subclass 101. Compounds wherein the tricyclo ring system has the following basic structure, which may contain double bonds between ring members: | |
109 | ....... Unsaturated ring bonded directly to ring carbon of the six-membered hetero ring: |
This subclass is indented under subclass 108. Compounds in which an unsaturated ring, i.e., a ring which
contains at least one double bond between ring members, is bonded
directly to ring carbon of the six-membered hetero ring.
| |||
110 | ...... Chalcogen or -C(=X)-, wherein X is chalcogen, attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 101. Compounds in which chalcogen (i.e., oxygen, sulfur,selenium
or tellurium), or a -C- group, in which X is chalcogen, is bonded
directly to the six-membered hetero ring by nonionic bonding.
| |||
111 | ..... The tricyclo ring system consists of a five-membered carbocyclic ring ortho fused to both a six-membered carboxyclic ring and the six-membered hetero ring (e.g., indenopyridines, etc.): |
This subclass is indented under subclass 79. Compounds in which the tricyclo ring system consists of
a five-membered carbocyclic ring ortho fused to both a six-membered
carbocyclic ring and the six-membered hetero ring; e .g.,
| |||
112 | .... Bicyclo ring system having the six-membered hetero ring as one of the cyclos: |
This subclass is indented under subclass 26. Compounds in which the polycyclo ring system consists of
exactly two rings.
| |||
113 | ..... Plural ring hetero atoms in the bicyclo ring system: |
This subclass is indented under subclass 112. Compounds wherein the bicyclo ring system includes at least
one ring hetero atom in addition to the ring nitrogen of the six-membered hetero
ring.
| |||
114 | ...... Ring sulfur in the bicyclo ring system: |
This subclass is indented under subclass 113. Compounds in which the bicyclo ring system contains ring
sulfur.
| |||
115 | ...... Ring oxygen in the bicyclo ring system: |
This subclass is indented under subclass 113. Compounds in which the bicyclo ring system contains ring
oxygen.
| |||
116 | ....... Acyclic chalcogen bonded directly to ring carbon of the bicyclo ring system: |
This subclass is indented under subclass 115. Compounds in which acyclic chalcogen (i.e., oxygen, sulfur,
selenium, or tellurium) is bonded directly to ring carbon of the
bicyclo ring system.
| |||
117 | ...... At least four ring nitrogens in the bicyclo ring system: |
This subclass is indented under subclass 113. Compounds wherein the bicyclo ring system contains at least
four ring nitrogens.
| |||
118 | ...... Three ring nitrogens in the bicyclo ring system: |
This subclass is indented under subclass 113. Compounds wherein the bicyclo ring system contains exactly
three ring nitrogens.
| |||
119 | ....... Two of the ring nitrogens are bonded directly to each other: |
This subclass is indented under subclass 118. Compounds wherein two of the ring nitrogens are bonded directly
to each other.
| |||
120 | ........ Having -C(=X)-, wherein X is chalcogen, bonded directly to the bicyclo ring system: |
This subclass is indented under subclass 119. Compounds wherein a group, in which X is chalcogen (i.e.,
oxygen, sulfur, selenium, or tellurium), is bonded directly to the
bicyclo ring system.
| |||
121 | ...... Ring nitrogen is shared by the two cyclos: |
This subclass is indented under subclass 113. Compounds wherein the ring nitrogen is a member of both
cyclos of the bicyclo ring system.
| |||
122 | ...... The other cyclo in the bicyclo ring system is also six-membered (e.g., naphthyridines, etc.): |
This subclass is indented under subclass 113. Compounds wherein the bicyclo ring system consists of two six-membered cyclos. | |
123 | ....... Chalcogen and -C(=X)-, wherein X is chalcogen bonded directly to ring carbons of the bicyclo ring system (e.g., 4-oxo-naphthyridine-3-carboxylic acid, etc.): |
This subclass is indented under subclass 122. Compounds in which both chalocogen (i.e., oxygen, sulfur,
selenium, or tellurium) and a group, wherein X is chalcogen, are
bonded directly to ring carbons of the bicyclo ring system.
| |||
124 | ..... Tropanes (including nor and dehydro forms): |
This subclass is indented under subclass 112. Compounds in which the bicyclo ring system has the following
basic structure:
| |||||
125 | ...... Additional hetero ring containing: |
This subclass is indented under subclass 124. Compounds which contain an additional hetero ring.
| |||
126 | ....... Additional polycyclo ring system having the additional hetero ring as one of the cyclos: |
This subclass is indented under subclass 125. Compounds wherein the additional hetero ring is one of the
cyclos in a polycyclo ring system.
| |||
127 | ...... Chalcogen bonded directly to ring carbon of the tropane ring system: |
This subclass is indented under subclass 124. Compounds wherein chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is bonded directly to a ring carbon of the tropane
ring system.
| |||
128 | ....... Polycyclo-carbocyclic ring system: |
This subclass is indented under subclass 127. Compounds having a carbocyclic ring system which contains
at least two rings.
| |||
129 | ....... Additional chalcogen attached directly or indirectly to the tropane ring system by nonionic bonding: |
This subclass is indented under subclass 127. Compounds wherein additional chalcogen (i.e., oxygen, sulfur,
selenium, or tellurium) is attached directly or indirectly to the
tropane ring system by nonionic bonding.
| |||
130 | ........ Three or more oxygens attached directly or indirectly to the tropane ring system by nonionic bonding: |
This subclass is indented under subclass 129. Compounds in which at least three oxygens are attached directly
or indirectly to the tropane ring system by nonionic bonding.
| |||
131 | ......... Hydroxy containing or containing oxy bonded directly to a group IA or group IIA light metal (i.e., -OH or -OM containing): |
This subclass is indented under subclass 130. Compounds which contain either an -OH or an -OM group, wherein
M is a Group IA or Group IIA metal having specific gravity less
than four.
| |||
132 | ...... Having -C(=X), wherein X is chalcogen, bonded directly to the tropane ring system: |
This subclass is indented under subclass 124. Compounds wherein a group, in which X is chalcogen (i.e.,
oxygen, sulfur, selenium, or tellurium), is bonded directly to the
tropane ring system.
| |||
133 | ..... Quinuclidines (including unsaturated): |
This subclass is indented under subclass 112. Compounds wherein the bicyclo ring system has the following
basic structure, which may contain double bonds between ring members:
| |||
134 | ...... Quinoline containing (including hydrogenated): |
This subclass is indented under subclass 133. Compounds containing the quinoline ring system, which may
contain double bonds between ring members, i.e.,
| |||
135 | ....... Additional hetero ring containing: |
This subclass is indented under subclass 134. Compounds which contain an additional hetero ring.
| |||
136 | ....... Three or more chalcogens attached indirectly to the quinuclidine ring system by nonionic bonding: |
This subclass is indented under subclass 134. Compounds in which at least three chalcogens (i.e., oxygen,
sulfur, selenium, or tellurium) are attached indirectly to the quinuclidine
ring system by nonionic bonding.
| |||
137 | ...... Chalcogen bonded directly to ring carbon of the quinuclidine ring system: |
This subclass is indented under subclass 133. Compounds wherein chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is bonded directly to a ring carbon of the quinuclidine ring
system.
| |||
138 | ..... Quinolizines (including hydrogenated): |
This subclass is indented under subclass 112. Compounds wherein the bicyclo ring system has the following
basic structure, which may contain double bonds between ring members:
| |||
139 | ..... Isoquinolines (including hydrogenated): |
This subclass is indented under subclass 112. Compounds wherein the bicyclo ring system has the following structure, which may contain double bonds between ring members: | |
140 | ...... Plural isoquinoline ring systems attached directly or indirectly to each other by nonionic bonding: |
This subclass is indented under subclass 139. Compounds which contain at least two isoquinoline ring systems
that are attached directly or indirectly to each other by nonionic
bonding.
| |||
141 | ...... Chalcogen attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 139. Compounds wherein chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is attached directly to the six-membered hetero ring
of the isoquinoline ring system by nonionic bonding.
| |||
142 | ....... Plural chalcogens attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 141. Compounds wherein at least two chalcogens (i.e., oxygen, sulfur, selenium, or tellurium) are attached directly to the six-membered hetero ring of the isoquinoline ring system by nonionic bonding. | |
143 | ...... Nitrogen, other than as nitro or nitroso, attached directly to the isoquinoline ring system by nonionic bonding: |
This subclass is indented under subclass 139. Compounds wherein nitrogen, except as a member of the nitro
(-NO2) or nitroso (-NO) group, is attached
directly to the isoquinoline ring system by nonionic bonding.
| |||
144 | ...... Unsaturated ring attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 139. Compounds wherein an unsaturated ring, i.e., a ring having
at least one double bond between ring members, is attached directly
to the six-membered hetero ring by nonionic bonding.
| |||||
145 | ...... Acyclic nitrogen double or triple bonded to carbon which is attached directly or indirectly to the isoquinoline ring system by nonionic bonding: |
This subclass is indented under subclass 139. Compounds wherein acyclic nitrogen is attached by a double
or triple bond to carbon which in turn is attached directly or indirectly to
the isoquinoline ring system by nonionic bonding.
| |||
146 | ...... Having -C(=X)-, wherein X is chalcogen, attached directly or indirectly to the isoquinoline ring system by nonionic bonding: |
This subclass is indented under subclass 139. Compounds wherein a group, in which X is chalcogen (i.e.,
oxygen, sulfur, selenium, or tellurium), is bonded directly or indirectly
to the isoquinoline ring system by nonionic bonding.
| |||
147 | ....... The -C(=X)- is Part of a -C(=X)X- group, wherein the X"s are the same or diverse chalcogens: |
This subclass is indented under subclass 146. Compounds in which the -C(=X)- is part of a group,
wherein the X"s are the same, or diverse, chalcogens (i.e.,
oxygen, sulfur, selenium, or tellurium.)
| |||
148 | ...... Unsaturated hetero ring attached indirectly to the isoquinoline ring system by nonionic bonding: |
This subclass is indented under subclass 139. Compounds wherein an unsaturated hetero ring, i.e., a hetero
ring having at least one double bond between ring members, is attached indirectly
to the isoquinoline ring system by nonionic bonding.
| |||
149 | ...... Unsaturated carbocyclic ring attached indirectly to the six-membered hetero ring through an acyclic hydrocarbon chain: |
This subclass is indented under subclass 139. Compounds wherein an unsaturated carbocyclic ring, i.e.,
a ring consisting of carbon atoms and having at least one double
bond between ring members, is attached indirectly to the six-membered
hetero ring of the isoquinoline ring system through an acyclic hydrocarbon
chain, i.e., a chain consisting of carbon and hydrogen atoms.
| |||
150 | ...... Single bond between 3,4-positions: |
This subclass is indented under subclass 139. Compounds wherein there is a single bond between the 3,4-positions
of the isoquinoline ring system.
| |||
151 | ...... N-alkyl or n-alkenyl isoquinoliniums which are otherwise unsubstituted or alkyl or alkenyl substituted only: |
This subclass is indented under subclass 139. Compounds wherein the carbon atoms of the isoquinoline ring
system are unsubstituted or contain an alkyl or alkenyl substituent
only and in which the nitrogen atom is pentavalent having bonded
directly thereto an alkyl or alkenyl group.
| |||
152 | ..... Quinolines (including hydrogenated): |
This subclass is indented under subclass 112. Compounds in which the bicyclo ring system has the following basic structure, which may contain double bonds between ring members: | |
153 | ...... Chalcogen attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium, or tellurium) is attached directly to the six-membered hetero ring of the quinoline ring system by nonionic bonding. | |
154 | ....... Polycyclo-carbocyclic ring system bonded directly to the six-membered hetero ring (e.g., quinophthalones, etc.): |
This subclass is indented under subclass 153. Compounds in which a polycyclo-carbocyclic ring system is
bonded directly to the six-membered hetero ring of the quinoline
ring system.
| |||
155 | ....... Plural chalcogens attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 153. Compounds in which at least two chalcogens (i.e., oxygen,
sulfur, selenium, or tellurium) are attached directly to the six-membered
hetero ring by nonionic bonding.
| |||
156 | ....... Having -C(=X)-, wherein X is chalcogen, bonded directly to the six-membered hetero ring: |
This subclass is indented under subclass 153. Compounds wherein a group, in which X is chalcogen (i.e., oxygen, sulfur, selenium, or tellurium), is bonded directly to the six-membered hetero ring. | |
157 | ....... Chalcogen attached directly at 2-position by nonionic bonding: |
This subclass is indented under subclass 153. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium, or tellurium) is attached directly at the 2-position of the quinoline ring system by nonionic bonding. | |
158 | ........ Single bond between 3,4-positions: |
This subclass is indented under subclass 157. Compounds in which there is a single bond between positions
3 and 4 of the quinoline ring system.
| |||
159 | ...... Nitrogen, other than as nitro or nitroso, attached directly to the six-membered hetero ring by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which nitrogen, except as a member of the nitro
(-NO2) or nitroso (-NO) group, is attached
directly to the six-membered hetero ring of the quinoline ring system
by nonionic bonding.
| |||
160 | ....... Unsaturated carbocyclic ring bonded directly to the nitrogen: |
This subclass is indented under subclass 159. Compounds in which an unsaturated carbocyclic ring, i.e., a ring consisting of carbon and having at least one double bond between ring members, is bonded directly to the nitrogen. | |
161 | ........ Having -C(=X)-, wherein X is chalcogen, bonded directly to the carbocyclic ring: |
This subclass is indented under subclass 160. Compounds wherein a group, in which X is chalcogen (i.e.,
oxygen, sulfur, selenium, or tellurium), is bonded directly to the
carbocyclic ring.
| |||
162 | ....... Nitrogen attached indirectly to the six-membered hetero ring through the directly attached nitrogen by nonionic bonding: |
This subclass is indented under subclass 159. Compounds wherein nitrogen is attached indirectly to the
six-membered hetero ring through the nitrogen which is directly
attached by nonionic bonding.
| |||
163 | ........ Both nitrogens bonded directly to the same acyclic hydrocarbon group: |
This subclass is indented under subclass 162. Compounds in which both nitrogen atoms are bonded directly
to the same acyclic hydrocarbon group.
| |||
164 | ...... Fully saturated quinolines: |
This subclass is indented under subclass 152. Compounds wherein the quinoline ring system is fully saturated,
i.e., no double bonds between ring members.
| |||
165 | ...... Single bond between 1,2-positions and single bond between 3,4-positions: |
This subclass is indented under subclass 152. Compounds in which there are single bonds between positions
1 and 2 and positions 3 and 4 of the quinoline ring system.
| |||
166 | ....... The six-membered hetero ring is unsubstituted or alkyl substituted only: |
This subclass is indented under subclass 165. Compounds in which the six-membered hetero ring is unsubstituted
or substituted by alkyl groups only.
| |||
167 | ...... Unsaturated hetero ring attached directly to the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which an unsaturated hetero ring is attached
directly to the quinoline ring system by nonionic bonding.
| |||
168 | ...... Having -C(=X)-, wherein X is chalcogen, bonded directly to the quinoline ring system: |
Compounds under subclas 152 wherein a group, in which X is chalcogen (i.e., oxygen, sulfur, selenium, or tellurium), is bonded directly to the quinoline ring system. | |
169 | ....... Acyclic nitrogen bonded directly to the -C(-X)- group: |
This subclass is indented under subclass 168. Compound in which acyclic nitrogen is bonded directly to
the group.
| |||
170 | ....... The -C(=X)- is part of -C(=X)X- group, wherein the X"s are the same or diverse chalcogens: |
This subclass is indented under subclass 168. Compounds wherein the is part of a group, in which the
X"s are the same or diverse chalcogens (i.e., oxygen, sulfur,
selenium, or tellurium).
| |||
171 | ...... Nitrogen, other than as nitro or nitroso, attached directly to the carbocyclic ring of the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds wherein nitrogen, except as a member of the nitro (-NO2) or nitroso (-NO) group, is attached directly to the carbocyclic ring of the quinoline ring system by nonionic bonding. | |
172 | ...... Acyclic sulfur bonded directly to oxygen and directly or indirectly to the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which acyclic sulfur is bonded both directly
to oxygen and directly or indirectly to the quinoline ring system
by nonionic bonding.
| |||
173 | ...... Unsaturated carbocyclic ring attached directly to the quinoline ring system by nonionic bonding (e.g., quinophthalones, etc.): |
This subclass is indented under subclass 152. Compounds in which an unsaturated carbocyclic ring is attached directly to the quinoline ring system by nonionic bonding. | |
174 | ...... Having -C(=X)-, wherein X is chalcogen, attached indirectly to the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which a group, wherein X is chalcogen (i.e., oxygen, sulfur, selenium, or tellurium), is attached indirectly to the quinoline ring system by nonionic bonding. | |
175 | ....... Nitrogen bonded directly to the -C(=X)- group: |
This subclass is indented under subclass 174. Compounds in which nitrogen is bonded directly to the group.
| |||
176 | ...... Nitrogen, other than as nitro or nitroso, attached indirectly to the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds wherein nitrogen, except as a member of the nitro (-NO2) or nitroso (-NO) group, is attached indirectly to the quinoline ring system by nonionic bonding. | |
177 | ....... Chalcogen attached directly to the carbocyclic ring of the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 176. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is attached directly to the carbocyclic ring of the
quinoline ring system by nonionic bonding.
| |||
178 | ...... Chalcogen attached directly to the carbocyclic ring of the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium, or tellurium) is attached directly to the carbocyclic ring of the quinoline ring system by nonionic bonding. | |
179 | ....... The chalcogen is in an -OH, -SH, -OM or -SM group (M is group IA or group IIA light metal): |
This subclass is indented under subclass 178. Compounds in which the chalcogen is part of an -OH, -SH,
-OM or -SM group; wherein M is a Group IA or Group IIA metal having
a specific gravity less than four.
| |||
180 | ...... Halogen of nitro attached directly or indirectly to the quinoline ring system by nonionic bonding: |
This subclass is indented under subclass 152. Compounds in which halogen or a nitro group (-NO2) is attached directly or indirectly to the quinoline ring system by nonionic bonding. | |
181 | ...... Quinolines which are unsubstituted or which are alkyl or alkenyl substituted only, or salt thereof: |
This subclass is indented under subclass 152. Compounds wherein the quinoline ring system is either unsubstituted
or substituted by alkyl or alkenyl groups only, or salts thereof.
| |||
182 | ....... Addition salts: |
This subclass is indented under subclass 181. Compounds which are addition salts of (a) unsubstituted
quinoline or (b) quinoline substituted by alkyl or alkenyl radicals
only.
| |||
183 | ..... Chalcogen bonded directly to ring carbon of the bicyclo ring system: |
This subclass is indented under subclass 112. Compounds in which chalcogen (i.e., oxygen, sulfur, selenium,
or tellurium) is bonded directly to ring carbon of the bicyclo ring
system.
| |||